https://gem.epss.ucla.edu/mediawiki/api.php?action=feedcontributions&feedformat=atom&user=Mdhartingem - User contributions [en]2026-05-25T08:41:44ZUser contributionsMediaWiki 1.33.0https://gem.epss.ucla.edu/mediawiki/index.php?title=US_Ground-based_magnetometer_arrays&diff=6484US Ground-based magnetometer arrays2024-05-17T16:53:04Z<p>Mdhartin: /* US Ground Magnetometer Board */</p>
<hr />
<div>=== US Ground Magnetometer Board ===<br />
<br />
This wiki page and related ground magnetometer board meetings are part of a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts. For more information about the current state and future of ground magnetometer networks in support of space weather monitoring and research, see this article in [https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017SW001718 Space Weather] as well as this [https://baas.aas.org/pub/2023n3i162/release/1?readingCollection=1fe5322b white paper] submitted to the 2024-2033 Solar and Space Physics (Heliophysics) Decadal Survey. <br />
<br />
''Current Ground Magnetometer Board Members:''<br />
* Peter Chi<br />
* Mark Engebretson<br />
* Jesper Gjerloev<br />
* Michael Hartinger<br />
* Hyomin Kim<br />
* Gang Lu<br />
* Doğacan Su Öztürk<br />
* Josh Rigler<br />
* Michelle Salzano (vice-chair)<br />
* Xueling Shi<br />
* Howard Singer<br />
* Endawoke Yizengaw<br />
* Zhonghua Xu (chair)<br />
<br />
''Former Ground Magnetometer Board Members:''<br />
* Carol Finn<br />
* Jennifer Gannon<br />
* Efthyia Zesta<br />
<br />
=== US-Sponsored Ground-Based Magnetometer Arrays and Programs* ===<br />
<br />
{| class="wikitable" style="width: 50%; height: 4em;"<br />
|-<br />
| Array || Location || Instruments || Manufacturer || No. of Locations<br />
|-<br />
| AAL-PIP || Antarctica || Fluxgate || Lviv Centre ISR || 6<br />
|-<br />
| AAL-PIP || Antarctica || Induction Coil || UNH || 4<br />
|-<br />
| AMBER || Africa || Fluxgate || UCLA || 7<br />
|-<br />
| AMBER || South America || Fluxgate || UCLA || 2<br />
|-<br />
| AMBER || East Asia || Fluxgate || UCLA || 4<br />
|-<br />
| Falcon || Continental US || Fluxgate || UCLA || 11<br />
|-<br />
| GIMA || Alaska || Fluxgate || Narod || 9<br />
|-<br />
| Jicamarca || South America || Fluxgate || UCLA || 2<br />
|-<br />
| LISN || South America || Fluxgate || Custom/Jicamarca || 6<br />
|-<br />
| MACCS || Arctic Canada || Fluxgate || Narod || 8<br />
|-<br />
| McMAC || Continental US & Mexico || Fluxgate || UCLA || 9<br />
|-<br />
| MEASURE || Continental US || Fluxgate || UCLA || 6<br />
|-<br />
| SAMBA || South America & Antarctica || Fluxgate || UCLA || 12<br />
|-<br />
| THEMIS || Continental US & Canada || Fluxgate || UCLA || 24<br />
|-<br />
| US Geological Survey || US & Territories || Fluxgate || Narod, Technical Univ of Denmark || 11<br />
|-<br />
| NJIT / AGO || Antarctica || Fluxgate || Bell Labs || 7<br />
|-<br />
| NJIT / AGO || Antarctica || Induction Coil || Tohoku University || 5<br />
|-<br />
| MICA || Antarctica || Induction Coil || UNH || 5<br />
|-<br />
| MICA || Arctic Canada || Induction Coil || UNH || 4<br />
|-<br />
| MICA || Svalbard || Induction Coil || UNH || 4<br />
|}<br />
<br />
*Some locations listed here have instruments that are not currently operating.<br />
<br />
=== Ground Magnetometer Data ===<br />
<br />
[http://supermag.jhuapl.edu/ SuperMAG]<br />
<br />
[https://www.usgs.gov/natural-hazards/geomagnetism/data-tools USGS Geomagnetism Program]<br />
<br />
[https://www.intermagnet.org/ INTERMAGNET]<br />
<br />
[http://vmo.igpp.ucla.edu/data1/SECS/Quicklook/ Spherical Elementary Currents] from James Weygand<br />
<br />
[http://themis.ssl.berkeley.edu/gmag/gmag_list.php?selyear=4000&selmonth=13&smap=on&sinfo=on&saelist=on&ae=on THEMIS]<br />
<br />
[https://cdaweb.gsfc.nasa.gov/index.html/ NASA CDAWeb]<br />
<br />
[http://mirl.unh.edu/ulf_status.html UNH Magnetic Induction Coil Array (MICA)]<br />
<br />
[http://search.iugonet.org/list.jsp IUGONET]<br />
<br />
=== Digital Object Identifiers for Ground Magnetometer Data ===<br />
<br />
Digital Object Identifiers (DOI) allow authors to cite data products just as they refer to papers. This is becoming a requirement of many journals, as it assures that the specific data used in a publication are findable and accessible. The DOI provides a permanent identifier (PID) for the data, remaining unchanged even if the data are moved to another archive. The "creators" (authors) of the data must link the DOI to a "landing page" that provides details about the data and methods for accessing them. Our group recommends that each ground magnetometer network generate DOIs for their datasets, at minimum one DOI for their original measurements (i.e., before filtering and other types of processing are performed).<br />
<br />
As a member of the [https://datacite.org DataCite organization], NASA Heliophysics (HP) can "mint" DOIs for ground magnetometer datasets. NASA HP is providing an easy means to assign DOIs to datasets using the HP Digital Resource Registry (HDRR) by providing landing pages for datasets based on their "SPASE" resource descriptions. As an example, any users of NASA's OMNI dataset can now use https://doi.org/10.48322/1shr-ht18 for the hourly dataset, and other DOIs for other sets, discoverable by a search with the Heliophysics Data Portal (HDP; https://heliophysicsdata.gsfc.nasa.gov; look for "omni" in the "observatory" entry at the left). More details for DOI initiation for resources in the HDP can be found [https://hpde.gsfc.nasa.gov/DOI_Initiative_October_2020.pdf here]. For further information, and especially to start the process of registering DOIs, contact James Weygand (jweygand@igpp.ucla.edu or jweygand@epss.ucla.edu).<br />
<br />
As noted above, a SPASE resource description is required for each magnetometer dataset to mint a DOI. Here's an example for the [https://drive.google.com/file/d/1MxEDFAa_grGuCdID9vwK9pRzkzH7FQYR/view?usp=sharing MACCS magnetometer network 5s measurements].<br />
<br />
== 2019 GEM workshop meeting ==<br />
<br />
The ground magnetometer advisory board was formed in 2016 as a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts.<br />
<br />
We invite the GEM community to attend our meeting on Monday, June 24 at 1:30 PM, where we’ll discuss updates on all the above items. Later this year, we’ll add new members to the advisory board who either operate ground magnetometers or use magnetometer data to support their scientific investigations and/or space weather monitoring efforts. If you’re interested in learning more about this opportunity, please attend this GEM meeting or contact Mike Hartinger (mdhartin@vt.edu).<br />
<br />
Monday, 24 June, 1:30 PM, Location: Santa Fe<br />
*Mike Hartinger - Updates on ground magnetometer advisory board activities<br />
*Mark Engebretson - Summary of information gathering report<br />
*Lisa Winter - NSF updates<br />
*Hyomin Kim - DRUM/DASI updates and future plans, discussion<br />
*Jesper Gjerloev - SuperMAG updates<br />
*Josh Rigler - USGS updates, updates from other magnetometer arrays<br />
<br />
== 2019 mini-GEM workshop meeting ==<br />
<br />
Sunday, 8 December, 1200-1330, Location: Oregon Room<br />
*Mike Hartinger - [https://drive.google.com/file/d/1f3nDkQU4Red2gBLe_I5z_z0LOTHRyfN8/view?usp=sharing Introduction and Overview of Advisory Board activities, updates on DOI and new instruments]<br />
*Howard Singer - [https://drive.google.com/file/d/16poHzPvIM60z9Z7E_qXHznRGL80cjRRY/view?usp=sharing How ground magnetometers are currently incorporated into forecasts at SWPC, how they could be incorporated in the future]<br />
*Jennifer Gannon - How ground magnetometers can best be used to monitor/investigate GIC, utility-grade magnetometers<br />
*Endawoke Yizengaw - Open discussion with NSF, DRUM/DASI future proposal plans<br />
*Anna Kelbert - [https://drive.google.com/open?id=1XFHxruhasIRvZ3JDGtVtExZE6d87tM0X USGS Geomagnetism Program updates]<br />
*Peter Chi - update on ULTIMA activities / international collaboration<br />
*James Weygand - [https://drive.google.com/open?id=1Uq5ArdynNUk6ymbrBAcbFU9zbzH1eD3t Spherical Elementary Currents and Mid/Low Latitude Data Availability]<br />
*Walk-ins TBD (Amy Keesee/Mike Coughlin,...)<br />
<br />
<br />
== August 2020 Virtual Discussion: Ground Magnetometer Measurements for Heliophysics Research and Space Weather Monitoring ==<br />
<br />
Friday, 7 August, 1500-1630 EDT<br />
<br />
[https://drive.google.com/file/d/1uQ18wVmQC9de6zGn8wXVmXHvkomQPP63/view?usp=sharing Meeting Summary and Community Feedback from Google Form]<br />
<br />
Discussion from this meeting and previous meetings was summarized in this [https://drive.google.com/file/d/1-lrglV9h7OneMK8XK0yjnPk3XhhMMMNg/view?usp=sharing Heliophysics 2050 white paper].<br />
<br />
Invited Speakers<br />
* Syau-Yun Hsieh – [https://drive.google.com/file/d/1nRB6Xjc8F4tyGDtFHSoH6Tr3Kxh8hnkq/view?usp=sharing SMILE mission ground-based support]<br />
* Enrico Camporeale – [https://drive.google.com/file/d/1JiQTM6I4q9TIcEYDlHSfWwM1nkwaLjNS/view?usp=sharing Long-term continuous magnetometer data for geomagnetic activity prediction using machine learning]<br />
* Slava Merkin – [https://drive.google.com/file/d/1-nALz_h5IUMtUPPZKGQh3KNHS-GxbBqx/view?usp=sharing What is required of global magnetosphere-ionosphere-thermosphere models to predict ground magnetic perturbations]<br />
<br />
Project Updates<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/15fE4UXOXYYjACtDilek9s1DDd8h9ODho/view?usp=sharing SuperMAG]<br />
* Michelle Salzano, [https://drive.google.com/file/d/12fI2yM-q_fw-4-4cN_8Nsp3oECtohjPh/view?usp=sharing MICA]<br />
* Josh Rigler, [https://drive.google.com/file/d/1aYjQcO-56TyNB0U97bobyRVsu1D05iJo/view?usp=sharing USGS] <br />
* Jennifer Gannon, [https://drive.google.com/file/d/17KkpAGoV1OwOAsi8n6x3fTF2q6xk_CNV/view?usp=sharing MagStar]<br />
* Chuck Smith, [https://drive.google.com/file/d/1VuUgOTyFrrBxuvxmdbJoVgYeyEmAUgIw/view?usp=sharing Space Weather Underground]<br />
* Endawoke Yizengaw, iMAGS<br />
* Peter Chi, [https://drive.google.com/file/d/1CX26PkNjz_8mFhrmqX14ZxE1m8eO-Rw3/view?usp=sharing SMART]<br />
* Mark Moldwin, [https://drive.google.com/file/d/1zrSgS7iImyWW7rlXWtqheU4gWOLUS3LW/view?usp=sharing New Ground Mag and TEC/GPS system]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1thUuT5pZqMjWI4xR5ytT8IvXSRpBl72c/view?usp=sharing MACCS]<br />
* Don Hampton, [https://drive.google.com/file/d/1DQyBge17GT9r7Vjvjp5LYXio9yGUkLnU/view?usp=sharing GIMA]<br />
* Hyomin Kim, AGO<br />
* Mike Hartinger, [https://drive.google.com/file/d/1OArNCvEEsFdXwi7qmz9_WNQskhcRqBGW/view?usp=sharing AALPIP]<br />
<br />
== February 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research ==<br />
<br />
Thursday, 4 February, 1100-1230 US Eastern Time<br />
<br />
This virtual meeting will begin with an invited talk from Gary Egbert on current/future applications of ground magnetometers to geophysics research, including magnetotellurics research relevant to Heliophysics/GIC. This continues a series of discussions intended to gather feedback for the upcoming Heliophysics Decadal Survey.<br />
<br />
The rest of the meeting will be for updates from SuperMAG and individual magnetometer networks, NSF announcements, and discussion of magnetometer digital object identifiers.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
[https://agu.confex.com/agu/fm20/meetingapp.cgi/Paper/685551 Link] to Gary Egbert's 2020 AGU presentation, "Modeling Diurnal Variation Magnetic Fields for Mantle Induction Studies"<br />
<br />
* 1100-1105 Mike Hartinger, [https://drive.google.com/file/d/1FQUYC_Q0F3I97RAYrOsCN_piy9cu8OcG/view?usp=sharing Introduction and Updates on Digital Object Identifiers]<br />
* 1105-1125 Gary Egbert, [https://drive.google.com/file/d/1fvp4QiW5BpPxtlmopLaPxKp-x9SUX2Wx/view?usp=sharing Current and Future Applications of Ground Magnetometers to Geophysics Research]<br />
* 1125-1135 Jennifer Gannon, [https://drive.google.com/file/d/1AL3NasABl5eDSE-Gh71-MTcR8BuG-PpH/view?usp=sharing MagStar]<br />
* 1135-1145 Josh Rigler / Anna Kelbert, USGS Updates<br />
* 1145-1155 Whitham Reeve, [https://drive.google.com/file/d/1TUetaa2wE7W_b2-h0v3q287B0h6F8LzA/view?usp=sharing SAM-III]<br />
* 1155-1205 Rob Barnes / Matt Potter, [https://drive.google.com/file/d/1xXunj9lafw2m5C3AdDBHi6ZqTPpU-Jtf/view?usp=sharing SuperMAG Updates]<br />
* 1205-1215 [https://drive.google.com/file/d/1YDZB7mhG8rZS5EqzRIax4AvCL2wmm6q7/view?usp=sharing Collaboration tools and NSF opportunities]<br />
* 1215-1230 Additional Brief Project Updates: [https://drive.google.com/file/d/1R-SetUGvFfZyA0emtZtOxZ3WbjXXF2BN/view?usp=sharing MICA], [https://drive.google.com/file/d/1Z62YCvAGkvF2lJmHLAJOG3qtlFvYs09P/view?usp=sharing MACCS], [https://drive.google.com/file/d/1THwB7Cq0K5hhPhY_3BRh9R724FwXssD-/view?usp=sharing NJIT], [https://drive.google.com/file/d/17XYtKyofyw_1uRc1T69K2l7Qxiiccyau/view?usp=sharing AALPIP]<br />
<br />
== July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey ==<br />
<br />
Thursday, 8 July, 1200-1330 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey. The discussion began with several presentations related to open magnetometer science questions and infrastructure. The rest of the meeting was for open discussion on topics for magnetometer-related white papers for the decadal survey.<br />
<br />
[https://drive.google.com/file/d/1yEqAe-CuK0XQBLiP5vsrhEAg3LhRaIui/view?usp=sharing Meeting notes]<br />
<br />
* Mike Hartinger, [https://drive.google.com/file/d/1FVolkY5xVn4DeL_3TFQmLWIpcdl6vKHF/view?usp=sharing Overview of the Meeting, NSF Opportunities]<br />
* Adam Schultz, [https://drive.google.com/file/d/1iVcUlawbmcbkhyVZLdaLp1s-_f8QSKm7/view?usp=sharing Improving Situational Awareness of ground-level EM fields]<br />
* Dan Schneider, [https://drive.google.com/file/d/1KGiHVAEQkynAkKeqYFBwV0ynrrMAetke/view?usp=sharing QuakeFinder: Induction Coil Magnetometer Array]<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/1G4MGyKsbCIdBhNU0e3hoNqeA7HP_uZsD/view?usp=sharing SuperMAG news]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1pNoWfpl8XyaQ5qtKX1nMXJrzaxX3sIkk/view?usp=sharing Unresolved issues in MPE-GIC studies]<br />
<br />
== October 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (1) ==<br />
<br />
Thursday, 19 October, 1400-1530 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July 2021. This was a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== February 2022 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (2) ==<br />
<br />
Monday, 7 February, 1600-1700 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July and October 2021. The meeting started with a [https://drive.google.com/file/d/1TAjZPnhS60InWkukMMrVQh4rxzeZo0hd/view?usp=sharing presentation] discussing upcoming meetings and other announcements related to the Decadal Survey as well as plans for an over-arching ground magnetometer white paper. The remaining time was for a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== 2022 GEM Workshop meeting ==<br />
<br />
Monday, 20 June, 1030-1200 US Hawaii Time, Stingray room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2022 GEM workshop. The session will begin with an introduction to both groups followed by an invited talk by Dr. Chigomezyo Ngwira on geomagnetically induced currents and geomagnetic disturbances. The remainder of the session will be for discussion of Solar and Space Physics Decadal Survey white papers related to ground magnetometers and short magnetometer network updates.<br />
<br />
* 1030-1035 - Mike Hartinger, Overview of the US Ground Magnetometer Group<br />
* 1035-1040 - Xueling Shi, Overview of the new GEM GIC focus group<br />
* 1040-1100 - Chigomezyo Ngwira, Review of Geomagnetic Disturbances and GIC<br />
* 1100-1105 - Mike Hartinger, GMAG group decadal survey discussions overview<br />
* 1105-1110 - Mike Hartinger, Overarching magnetometer white paper<br />
* 1110-1115 - Jesper Gjerloev, Decadal survey white paper<br />
* 1115-1145 - General Q+A and discussion of decadal survey white paper topics<br />
* 1145-1200 - Magnetometer Network/SuperMAG Updates (1-slide/1-minute each): Jesper Gjerloev (SuperMAG), Shane Coyle (AALPIP), Shane Coyle (GPS Rollover), Michelle Salzano (MICA-S), Hyomin Kim (HamSCI magnetometer), Hyomin Kim (Deep polar cap Antarctic network), Josh Rigler (USGS magnetometer network), Mark Engebretson (MACCS - presenting virtually), Q+A<br />
<br />
== 2022 mini-GEM Workshop ==<br />
<br />
Sunday, 11 December, hybrid meeting<br />
<br />
The US magnetometer group participated in two joint sessions with the GEM GIC, MPEC, and IHMIC focus groups at the 2022 mini-GEM workshop. See the [https://gem.epss.ucla.edu/mediawiki/index.php/FG:_Understanding_the_causes_of_geomagnetic_disturbances_in_geospace_for_hazard_analysis_on_geomagnetically_induced_currents#2022_mini-GEM_Workshop_Meeting GIC FG wiki page] for details on the schedule.<br />
<br />
== 2023 GEM Workshop meeting ==<br />
<br />
Wednesday, 14 June, 1330-1500 US Pacific Time, Pacific A room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2023 GEM workshop.<br />
<br />
* 1330-1335 - Mike Hartinger, Overview of the US Ground Magnetometer Group and Recent Updates<br />
* 1335-1345 - Chia-Lin Huang, NSF updates<br />
* 1345-1350 - Jesper Gjerloev, SuperMAG updates<br />
* 1350-1355 - Peter Chi, ULTIMA updates<br />
* 1355-1400 - Discussion<br />
* 1400-1405 - Peter Chi, SMART network updates<br />
* 1405-1410 - Doga Ozturk, UAF SWUG Data Center<br />
* 1410-1415 - Zhonghua Xu, AALPIP network update<br />
* 1415-1420 - Hyomin Kim, NJIT update Antarctic geospace measurements<br />
* 1420-1425 - Mark Engebretson (virtual), MACCS network update and relevance to GDC/SMILE<br />
* 1425-1430 - Josh Rigler (virtual), USGS updates (observatories and variometers)<br />
* 1430-1435 - Mike Hartinger (for Shane Coyle), magget: A python module for finding and digesting ground magnetometer data from many modular data sources<br />
* 1435-1440 - Marc Lessard, Magnetic Induction Coil Array<br />
* 1440-1500 - General Q+A and discussion<br />
<br />
== 2023 mini-GEM Workshop ==<br />
<br />
Sunday, 10 December, 1530-1700 US Pacific Time, Gold Rush A room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2023 mini-GEM workshop. The session will begin with an introduction to both groups and a summary of recent activities, followed by updates from NSF and discussion of international collaborations involving ground magnetometers including International Polar Year. The rest of the session will be for SuperMAG updates, discussion of ground magnetometer campaigns with satellite missions (SMILE, GDC, EZE,…), and data sharing.<br />
<br />
* 1530-1535 - Mike Hartinger and Xueling Shi, GMAG board overview / Planned GIC FG activities<br />
* 1535-1545 - Chia-Lin Huang, NSF updates<br />
* 1545-1550 - Zhonghua Xu, Recap from GEOSCOPR workshop (Vladimir Papitashvili also available for Q+A)<br />
* 1550-1555 - Zhonghua Xu and Mike Hartinger, Early plans for ground magnetometers in the International Polar Year: IASC feedback<br />
* 1555-1600 - Lucilla Alfonsi (presented by Mike Hartinger), International Collaboration - SCAR AGATA <br />
* 1600-1610 - Discussion<br />
* 1610-1615 - Jesper Gjerloev, SuperMAG update<br />
* 1615-1620 - Jesper Gjerloev, EZIE mission coordination with ground-based measurements, including magnetometers<br />
* 1620-1625 - Bea Gallardo-Lacourt, GDC mission coordination with ground-based measurements, including magnetometers<br />
* 1625-1630 - Jennifer Carter, SMILE mission coordination with ground-based measurements, including magnetometers<br />
* 1630-1635 - Jennifer Carter and Maria-Theresia Walach, SMILE mission winter campaign planning<br />
* 1635-1640 - Alexander Drozdov, Accessing Magnetometers from Seismology Databases via SPEDAS software<br />
* 1640-1700 - General Q+A and discussion</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=FG:_ULF_Wave_Modeling,_Effects,_and_Applications&diff=6380FG: ULF Wave Modeling, Effects, and Applications2024-01-24T22:55:39Z<p>Mdhartin: /* Summary Reports for GEM workshops */</p>
<hr />
<div>''Focus Group Leaders:''<br />
* Michael Hartinger, Space Science Institute (mhartinger@spacescience.org)<br />
* Kazue Takahashi, Applied Physics Laboratory<br />
* Alexander Drozdov, UCLA<br />
* Maria Usanova, University of Colorado<br />
* Brian Kress, University of Colorado and NOAA-NCEI<br />
* Xueling Shi, Virginia Tech<br />
<br />
Focus Group term: 2016-2021<br />
<br />
== Science Questions ==<br />
Our group aims to address the following broad science questions: What mechanisms excite ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in Magnetosphere-Ionosphere coupling?<br />
<br />
== Focus Group Proposal ==<br />
[http://gem.epss.ucla.edu/mediawiki/FGproposals/Hartinger-UMEA.pdf ULF Wave Modeling, Effects, and Applications (UMEA)] (December 2015)<br />
<br />
== Focus Group Final Publications ==<br />
Review of Focus Group activities from 2016-2021: [https://www.frontiersin.org/articles/10.3389/fspas.2022.867394/full ULF Wave Modeling, Effects, and Applications: Accomplishments, Recent Advances, and Future]<br />
<br />
Summary of panel discussion during joint session with RB focus group at the 2021 GEM workshop: [https://agupubs.onlinelibrary.wiley.com/doi/10.1029/2022EA002216 Radial Transport Versus Local Acceleration: The Long-Standing Debate]<br />
<br />
== ULF wave modeling challenge ==<br />
<br />
One part of the ULF wave modeling challenge involves running several global MHD simulation codes with identical, idealized solar wind driving conditions (sinusoidal density variation), then comparing the resulting global ULF wave properties and discussing differences in the context of differing boundary conditions, grids, etc. More details can be found here: [http://ccmc.gsfc.nasa.gov/challenges/ULF/ ULF wave modeling challenge at CCMC]<br />
<br />
Another part of the ULF wave modeling challenge involves data-model comparisons during specific events. At the 2017 GEM and mini-GEM meetings several [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing challenge events] were proposed, including two [https://drive.google.com/open?id=1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI 2017 events].<br />
<br />
We have selected the [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing 27-28 May 2017 storm event] for the ULF wave modeling challenge due to favorable solar wind coverage and availability of numerous satellites (MMS, ARASE, THEMIS, RBSP, Cluster, GOES, ...) and ground-based observations for global context and multi-point wave observations. We will be continuously updating this [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing overview presentation] with observation and modeling results. Model output and observations for the challenge event - including global densities from the NURD model - can be obtained [https://drive.google.com/drive/folders/1Bk9vJtbEHd-vSuYqr3UG9NGCqaBn69hw?usp=sharing here]. If you would like to add additional observations/model output to the google drive or overview pdf, please contact the co-chairs.<br />
<br />
CCMC has run several global MHD simulation codes using the driving conditions of the ULF wave challenge event. At the 2019 GEM meeting and future GEM/mini-GEM meetings, we plan data-model comparisons to identify where model/data don't agree and discuss these differences in the context of incorrect boundary conditions (e.g., compare model ionosphere to local PFISR-derived conductivities), missing physics, numerical dissipation, etc. Please contact CCMC/Lutz Rastaetter and model developers before using this simulation output in publications:<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_SWMF_040319_1 Space Weather Modeling Framework simulation], IMF Bx=0 (other parameters as in event). Full 2-day event, 3D output every 15s, virtual ground magnetometer. If you haven't used CCMC visualization tools before, be aware that you shouldn’t submit multiple visualization requests at the same time, as this could crash CCMC server for these large 3D files. Instead, request a batch process or wait for the first visualization request to complete. The easiest/fastest visualization is to follow the link above and scroll down until you see the virtual ground magnetometer and satellites list. Click on the magnetometer/satellite of interest, then select which parameter(s) to display/download. <br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_1 OpenGGCM run 1] – IMF Bx = -7 nT. Smaller time range available on 28 May 0400-1000, only virtual ground magnetometer from POKR/CMO available now. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_1 Full results including virtual satellite.]<br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_2 Open GGCM run 2] – IMF Bx = 0 nT (as in SWMF simulation). Same format as other OpenGGCM simulation. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_2 Full results including virtual satellite.]<br />
<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_LFM_051519_2 LFM simulation]<br />
<br />
== ULF wave HGSO event coordination ==<br />
Our group is helping coordinate analysis of conjunction events for ULF wave studies, including requesting instrument operation modes favorable for ULF wave analysis.<br />
<br />
The [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] 0400-0800 UT conjunction event includes several satellites (THEMIS, Cluster, Van Allen Probes, GOES, Geotail, FIREBIRD, METOP, POES, DMSP) in the pre-midnight sector during a conjunction with the Poker Flat Incoherent Scatter Radar and several SuperDARN radars. PFISR was operating throughout the conjunction, several SuperDARN radars were in high resolution sampling modes, and several satellites were operating in fast survey/burst mode. The conjunction is favorable for modeling and observation studies of magnetosphere-ionosphere coupling via ULF waves, wave-particle interactions, global ULF wave properties, and many other topics. [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing This pdf] summarizes preliminary results<br />
<br />
Several web-based tools are available for identifying future conjunctions, including [https://ergsc.isee.nagoya-u.ac.jp/analysis/index.shtml.en upcoming conjunctions between ARASE and Van Allen Probes/ground] and conjunctions between [https://swarm-aurora.com/conjunctionFinder/ SWARM/all-sky cameras].<br />
<br />
'''There are also many specialized, web-based tools for ULF wave analysis (please contact FG co-chairs to add to this list):'''<br />
<br />
*SuperMAG ground-based magnetometer [http://supermag.jhuapl.edu/rBrowse/?start=2001-01-30T05%3A00%3A00.000Z&step=14400 global ULF wave plots]<br />
<br />
*CARISMA ground-based magnetometer [http://www.carisma.ca/carisma-data/fgm-pc1-power-spectra Pc1 power spectra] and [http://www.carisma.ca/carisma-data/fgm-pc5-power-spectra Pc5 power spectra]<br />
<br />
*Augsburg College/UNH Arctic and Antarctic [http://space.augsburg.edu/searchcoil/index.html search coil magnetometer survey plots] <br />
<br />
*Augsburg College (hosted by ViRBO) [http://virbo.org/Augsburg/ULF ULF wave index]<br />
<br />
*[http://vt.superdarn.org/tiki-index.php?page=DaViT+DynFFT SuperDARN wave analysis] and [http://vt.superdarn.org/tiki-index.php?page=Data+Inventory identification of high time-resolution SuperDARN beams]<br />
<br />
*THEMIS satellite fluxgate magnetometer [http://themis.ssl.berkeley.edu/summary.php?year=2014&month=05&day=11&hour=0024&sumType=thmfgmdyn&type=themislinfgl wave survey plots]<br />
<br />
*National Institute of Polar Research inter-hemispheric comparisons of Syowa/Iceland [http://iugonet0.nipr.ac.jp/web/induction/ induction magnetometer spectra]<br />
<br />
*[http://mist.nianet.org/Satellite_Conjunctions/ Inter-hemispheric comparisons] during satellite conjunctions with Arctic(DTU Space)/Antarctic(Virginia Tech) magnetometers<br />
<br />
*[http://kho.unis.no/uaf_msp.htm Meridian Scanning Photometer plots] from [http://kho.unis.no/ UNIS/Kjell Henriksen Observatory], for context on open-closed boundary and ULF modulation of the aurora<br />
<br />
== Summary Reports for GEM workshops ==<br />
[https://drive.google.com/file/d/1w40WBeugwpoYgNESv4UKR542tFkzImZt/view?usp=sharing 2016 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1W8z_QGq4n1cg8VmAtn5irr3HGf4JgXq2/view?usp=sharing 2017 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1P7vZBkiQZPUCAqrydmRU8yAbq9GUZ4iz/view?usp=sharing 2018 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1iT7uBERHVSNegQdSbwS_diTZM4RKcGxa/view?usp=sharing 2019 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1MA8NUrd4DywUuqTuxIp5pEawyHWNxVPt/view?usp=sharing 2020 UMEA FG report]<br />
<br />
== 2016 Mini-GEM schedule ==<br />
UMEA will hold one session at the [http://www.cpe.vt.edu/gem-mini/ mini-GEM workshop]: ULF wave modeling, effects and applications updates<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 11, 2016<br />
<br />
'''Location''': Oregon Room, Holiday Inn Golden Gateway<br />
<br />
'''Schedule:'''<br />
<br />
'''First Half (12:00 – 12:45): 3 talks (~15 min each):'''<br />
<br />
*1. Mike Hartinger -- Overview of UMEA current activities, discussion of future plans<br />
<br />
*2. Lutz Rastaetter -- ULF wave modeling challenge at CCMC<br />
<br />
*3. Robert Rankin -- Modeling the global properties and ground-based signatures of ULF waves and wave-particle interactions<br />
<br />
'''Second Half (12:45 – 13:30): (5 minutes each, 1-2 slides, order of talks may change):'''<br />
<br />
*1. Xueling Shi -- SuperDARN THEMIS Mode Data Tracker & ULF Wave Detection<br />
<br />
*2. Richard Denton -- Mass density inferred from Alfven wave frequencies measured by RBSP<br />
<br />
*3. Lars Daldorff -- ULF waves, particle transport and energization in global MHD simulations with plasmasphere<br />
<br />
*4. Alexander Drozdov -- Dependence of radiation belt simulations to assumed radial diffusion rates tested for two empirical models of radial transport<br />
<br />
*5. Bob Lysak -- Quarter Wavelength Modes<br />
<br />
*6. Walk-ins<br />
<br />
== 2017 GEM meeting schedule ==<br />
UMEA will hold four sessions session at the 2017 GEM meeting<br />
<br />
'''UMEA Update and plans, general discussion of ULF wave modeling and observations''': 10:30-12:15, Monday, June 19, Port VI-VIII<br />
<br />
*1. Michael Hartinger -- UMEA update<br />
<br />
*2. Toshi Nishimura -- PFISR measurements during the 2 May 2017 HGSO event<br />
<br />
*3. Xueling Shi -- A Survey of Ionospheric ULF Wave Signatures in SuperDARN Data: Occurrence Statistics and Driving Mechanisms<br />
<br />
*4. Tetsuo Motoba -- Dayside Auroral Pulsations<br />
<br />
*5. Brian Kress and Rob Redmon -- Newly Available GOES 8-16 Particle and Magnetic Field Measurements<br />
<br />
*6. Dick Wolf -- Theory of magnetospheric buoyancy waves<br />
<br />
<br />
'''ULF wave interactions with the radiation belt and ring current populations''': 1:30-3:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Rualdo Soto-Chavez -- Generation of Pc5-ULF wave by the drift-mirror instability<br />
<br />
*2. Zhiyang Xia -- Eigenmode analysis of compressional poloidal modes in a self-consistent magnetic field<br />
<br />
*3. Mark Engebretson -- Statistical study of the upper frequency cutoff of helium band EMIC waves observed by the Van Allen Probes<br />
<br />
*4. Alexander Drozdov -- Radial diffusion and EMIC waves in the long-term simulation and in the case study<br />
<br />
*5. Seth Claudepierre -- Global MHD simulations driven by idealized Alfvenic fluctuations in the solar wind<br />
<br />
*6. Michael Hartinger -- Radiation belt response to large scale, monochromatic ULF waves: LANL-GEO observations<br />
<br />
<br />
'''ULF wave modeling, including CCMC modeling challenge, Joint with MMV''': 3:30-5:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Lutz Rastaetter -- CCMC ULF wave modeling challenge update and challenge events<br />
<br />
*2. Scot Elkington -- ULF wave activity and diffusion coefficients during QARBM challenge events, Ashar F. Ali’s write-up on Event-Specific Radial Diffusion Coefficients Derived Using RBSP EMFISIS and EFW Data<br />
<br />
*3. Katariina Nykyri -- KHI challenge events<br />
<br />
*4. All -- Open Discussion of Challenge Events<br />
<br />
*5. Doga Ozturk -- Effects of Increased Solar Wind Dynamic Pressure on the Coupled M-I system under different IMF By<br />
<br />
*6. Kazue Takahashi -- Cavity mode Van Allen Probe observations<br />
<br />
*7. Bob Lysak -- Cavity mode models<br />
<br />
*8. Tom Elsden -- The Theoretical Foundation of 3D Alfven Resonances: Time Dependent Solutions<br />
<br />
<br />
'''Magnetosphere-Ionosphere coupling processes associated with localized disturbances caused by dayside kinetic phenomena: Joint with “Dayside Kinetic Processes…” and “Testing proposed links…”''': 3:30-5:00, Tuesday, June 20, Port VI-VIII<br />
<br />
*1. Peter Chi -- Magnetospheric and ionospheric responses to a localized disturbance: The macroscopic view<br />
<br />
*2. Hui Zhang -- Magnetospheric ULF waves generated by foreshock transients<br />
<br />
*3. Hui Zhang -- Modeling challenges in simulating HFA geoeffects<br />
<br />
*4. Boyi Wang -- Optical signatures of dayside ULF waves during magnetosheath high-speed jets<br />
<br />
*5. Katariina Nykyri -- The effect of magnetosheath seed spectrum on KH evolution and associated mass transport<br />
<br />
*6. Kyle Murphy -- A statistical study of discrete ULF wave power observed by GOES<br />
<br />
== 2017 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2017 mini-GEM] workshop<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 10, 2017, Canal/50<br />
<br />
'''ULF wave modeling challenges'''<br />
Discussion of final plans for the CCMC ULF wave modeling challenge with idealized drivers, as well as open discussion of new challenges involving data-model and model-model comparisons during specific events. Please come with 1-2 slides showing examples of such comparisons, ideas for improving ULF wave models, and/or ideas for specific modeling challenges/sessions relevant to the FG science questions.<br />
<br />
*1. 12:00-12:30 Overview of CCMC ULF wave modeling challenge with idealized driving conditions, description of challenge events and targets proposed during 2017 GEM meeting and November modeling telecon (Michael Hartinger, Lutz Rastaetter)<br />
*2. 12:30-13:30 Open discussion of challenge events and targets (Allison Jaynes, Robert Rankin), select challenge event to be analyzed at 2018 GEM<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 10, 2017, Canal/50<br />
<br />
'''Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
Discussion of HGSO coordination for ULF wave studies. This includes updates on the 2 May 2017 conjunction event followed by an open discussion of conjunctions and datasets that are particularly useful for ULF wave studies, including upcoming RBSP-ERG-ground conjunctions. Please come with 1-2 slides showing examples of datasets and past/upcoming conjunctions ideal for addressing the FG science questions: What excites ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in MI coupling? We welcome discussion from both modelers and observers of the types of conjunctions and observations that are most needed to address these questions.<br />
<br />
*1. 13:50-14:20 Recently available datasets and conjunctions for ULF wave studies (Chih-Ping Wang, Xueling Shi, Sana Qamar, Rob Redmon)<br />
*2. 14:20-14:35 Updates on 2 May 2017 conjunction event (Toshi Nishimura, Michael Hartinger)<br />
*3. 14:35-15:20 Upcoming ARASE-RBSP conjunctions (Yoshi Miyoshi), Open Discussion of HGSO coordination for ULF wave studies (Toshi Nishimura, Kazue Takahashi)<br />
<br />
== 2018 GEM meeting schedule ==<br />
UMEA will hold four sessions at the 2018 GEM meeting. <br />
<br />
'''ULF waves during particle injections and dipolarizations, joint with Dipolarization and Substorm FG''': 10:30-12:00, Monday, June 18<br />
<br />
*1. Discussion of Session Topic<br />
<br />
*2. Bob Lysak -- Ionospheric Conductivity Effects on Pi2 Pulsations<br />
<br />
*3. Mike Hartinger -- Pi2 waves during an extended period with stable plasmapause location and variable geomagnetic activity<br />
<br />
*4. Toshi Nishimura -- Ionosphere observations of Pc5 ULF waves during 2018 HGSO conjunctions<br />
<br />
*5. Xueling Shi -- Long-lasting poloidal ULF waves observed by multiple satellite and SuperDARN HF radars<br />
<br />
*6. Jian Yang -- New RCM-I simulation results for buoyancy waves<br />
<br />
*7. Dick Wolf -- Theory of Buoyancy Waves<br />
<br />
*8. Yan Song -- What Causes the Substorm Expansion Phase and Associated ULF Waves?<br />
<br />
<br />
'''Recent advances in ULF wave research''': 1:30-3:00, Monday, June 18 <br />
<br />
*1. Overview of focus group goals and recent progress<br />
<br />
*2. Brief ULF wave poster overviews (Tuesday posters)<br />
<br />
*3. Kazue Takahashi -- Observation of nightside ULF waves by RBSP and Arase<br />
<br />
*4. Tom Elsden -- Broadband Excitation of 3D Alfven Resonances (FLRs) in an MHD Waveguide<br />
<br />
*5. Boyi Wang -- 2-D structure of foreshock driven Pc5 ULF waves observed by the THEMIS satellites and South Pole imager<br />
<br />
*6. Xiaochen Shen -- Foreshock transient-driven ultra-low frequency (ULF) waves with dawn-dusk asymmetry of wave power<br />
<br />
*7. Chih-Ping Wang -- ULF waves possibly driven by tailward propagation of foreshock perturbations<br />
<br />
*8. Allison Jaynes -- Fast diffusion of ultra-relativistic electrons in the outer radiation belt: 17 March 2015 storm event<br />
<br />
*9. Rualdo Soto -- The Drift-Mirror instability in Earth's inner magnetosphere<br />
<br />
*10. Martin Archer/Mike Hartinger -- Results from Sonification and Citizen Science of Magnetospheric ULF waves<br />
<br />
<br />
'''EMIC wave generation, propagation, and interactions''': 3:30-5:00, Monday, June 18 (discussion leaders: Alexander Drozdov and Maria Usanova)<br />
Session Summary<br />
<br />
*1. Dedong Wang -- EMIC wave observations from Van Allen Probes and MMS<br />
<br />
*2. Mark Engebretson -- Van Allen Probes, and ground based magnetometer observations of EMIC waves associated with a modest interplanetary shock<br />
<br />
*3. Maria Usanova -- MMS Observations of Harmonic Electromagnetic Cyclotron Waves<br />
<br />
*4. Naritoshi Kitamura -- Direct measurements of energy transfer from hot H+ to EMIC waves by MMS<br />
<br />
*5. Bruce Fritz -- ELF Whistler Dependence on a Sunlit Ionosphere<br />
<br />
*6. Chae-Woo Jun -- EMIC waves associated with/without the injection inside/outside the plasmapause<br />
<br />
*7. Hyomin Kim -- Injection-associated EMIC waves<br />
<br />
*8. Sebastian Cervantes -- EMIC wave parameterization in radiation belt reanalysis<br />
<br />
*9. Maria Usanova -- Long-term correlation of EMIC wave activity and radiation belt flux variations<br />
<br />
*10. Alexander Drozdov -- The effects due to the EMIC waves in the VERB code modeling<br />
<br />
<br />
'''ULF wave modeling challenge, joint with MMV FG''': 3:30-5:00, Wednesday, June 20<br />
<br />
*1. Brief ULF wave poster overviews (Thursday posters)<br />
<br />
*2. Mike Hartinger: ULF wave modeling challenge event overview, discussion of challenge targets (continuing during session)<br />
<br />
*3. Mariko Teramoto: ARASE ULF wave observations during challenge event<br />
<br />
*4. Sam Califf: GOES-14 and 16 observations during the ULF wave challenge event, Data Discussion<br />
<br />
*5. Toshi Nishimura: PFISR measurements of the 27-28 May 2017 ULF waves<br />
<br />
*6. Dogacan Su Ozturk: The modeling study of the 27 March 2017 Event <br />
<br />
*7. Xiaochen Shen: GEM Challenge Event: ULF wave-related electron and proton precipitation/negative dynamic pressure pulse driven EMIC wave<br />
<br />
*8. Tetsuo Motoba: Auroral measurements of the 27-28 May 2017 ULF waves<br />
<br />
*9. Others discuss when their figures/summary plots in event overview pdf are presented…<br />
<br />
== 2018 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2018 mini-GEM] workshop<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF modulation of the aurora, Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
This session focuses on understanding a variety of mechanisms responsible for ULF modulations of the aurora. Eric Donovan will give a 30 minute invited presentation, with the rest of the session open for presentations and discussion on this topic. We welcome discussion of ULF aurora generation mechanisms and the types of conjunctions, observations, and models needed to understand the zoo of ULF auroral modulations. We also welcome discussion of upcoming observation campaigns/satellite conjunctions that would be particularly useful for ULF wave studies.<br />
<br />
*1. Eric Donovan<br />
*2. Tetsuo Motoba<br />
*3. Slava Pilipenko<br />
*4. Boyi Wang / Toshi Nishimura<br />
*5. Open discussion<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF wave modeling challenge and research highlights'''<br />
The first part of the session is for updates on the idealized ULF wave modeling challenge and potential 2019 GEM sessions. The next part of the session is for observation/model presentations relevant to the 27-28 May 2017 ULF wave challenge event and final selection of the modeling challenge targets – all types of models and observations welcome. The last part of the session will be open for 1 slide ULF wave modeling and observation research highlights. <br />
<br />
*1. 2019 GEM session ideas (Mike Hartinger)<br />
*2. Idealized Modeling Challenge (Lutz Rastaetter)<br />
*3. ULF wave modeling challenge event updates: Rob Redmon/Sam Califf/Mike Hartinger (GOES magnetometer observations), Yoshi Miyoshi (Arase magnetic field observations), Hyomin Kim (wave-particle interaction), Dong Lin (LFM simulations)<br />
*4. General ULF wave modeling: Yaireska Collado-Vega (vortex identification/surface waves), Alex Degeling (ULF wave radiation belt interactions)<br />
*5. Research highlights (1-slide): Rualdo Soto (Van Allen Probes and Cluster satellites’ observations of Pc 5 (mHz) magnetic pulsations), Xueling Shi (SuperDARN ULF waves), Martin Archer (magnetopause surface eigenmodes), Martin Archer (sonification)<br />
<br />
== 2019 GEM meeting schedule ==<br />
<br />
UMEA will hold [https://drive.google.com/file/d/1KmH9XqxrisGH_g4s0ny7QDkutmv7tKlr/view?usp=sharing six sessions] at the 2019 GEM meeting, four joint with other focus groups. <br />
<br />
'''Recent advances in ULF wave research: Modeling''': 3:30-5:00, Monday, June 24 New Mexico room, joint with MMV. <br />
Discussion of advances in ULF wave research, with focus on modeling and modeling challenges (e.g., boundary conditions, grid resolution, missing physics). This includes models of the effects of ULF waves on inner magnetosphere dynamics and wave-particle interactions. We particularly encourage presentations focused on the ULF wave modeling challenge, including data-model comparisons for the 27-28 May 2017 challenge event.<br />
*Mike Hartinger, FG updates<br />
*Jesper Gjerloev, SuperMAG ULF updates<br />
*Tetsuo Motoba, High-time resolution SuperMAG ULF data products<br />
*Lutz Rastaetter, ULF wave modeling challenge<br />
*Maulik Patel, MHD test particle simulations of the 16 July 2017 shock compression of the dayside magnetopause <br />
*Bob McPherron, Pi 2 pulsations during the storm of May 27-29 2017, The Statistics of Pi 2 Pulsation Occurrence during a Major Magnetic Storm<br />
*Dong Lin, LFM simulations of surface waves during challenge event<br />
<br />
'''The ULF response to dayside transients with different temporal/spatial scales''': 10:30-12:00, Wednesday, June 26 Santa Fe room, discussion leader: Tom Elsden, joint with Dayside Kinetics and IHMIC. <br />
Dayside transient phenomena associated with kinetic scale processes cause a variety of ULF wave behaviour in the magnetosphere and further, contribute to significant magnetospheric asymmetries. The aim of this session is to bring together the expertise of the three focus groups listed above, to answer outstanding questions at the overlap of these disciplines. It is hoped that such a discussion should prove fruitful enough to generate a JGR commentary paper in this area. With this in mind, speakers in this session are encouraged to give their views as to the current state of the subject area, and how outstanding problems may be addressed in the future.<br />
* Tom Elsden - Session introduction and goals<br />
* Ferdinand Plaschke (invited) - An overview of dayside transients causing ULF waves<br />
* Tom Elsden - 3D ULF wave modeling with MHD<br />
* Boyi Wang - The role of magnetosheath high-speed jets in triggering magnetospheric Pc5 ULF waves<br />
* Bob Lysak - Ionospheric asymmetries and quarter-wave modes<br />
* Xueling Shi - Conjugate Observations of ULF Waves during an Extended Period of Radial IMF<br />
* Michael Hartinger - Localized magnetopause surface wave activity and modeling challenges<br />
* Discussion<br />
<br />
'''ULF wave modeling challenges associated with Magnetosphere-Ionosphere-Thermosphere Coupling''': 3:30-5:00, Wednesday, June 26 Lumpkins Ballroon South, joint with IEMIT, discussion leader Doga Ozturk. <br />
ULF waves play important roles in M-I-T coupling, driving current systems that can lead to I-T system heating and geomagnetically induced currents. This session aims to bring together researchers from the ULF wave and M-I-T coupling research communities to discuss challenges associated with realistically modeling M-I-T coupling processes associated with these waves. The session will begin with a discussion of the ULF wave challenge event; comparisons between modeled / observed (PFISR) conductivities and modeled/observed ULF wave properties will be presented, and the community will be invited to discuss explanations for model/observation differences. The rest of the session is open for short presentations on ULF wave modeling challenges related to M-I-T coupling, including topics such as specifying conductivity and effect of conductivity on wave properties, effect of ionospheric boundary conditions in global simulations, boundary conditions and feedback between magnetosphere and ionosphere, capturing role of waves in ionospheric-thermospheric heating.<br />
# (Invited) Boyi Wang: Ionospheric modulation by Pc5 ULF waves and wave structure detected by PFISR<br />
# (Invited) Xiaojia Zhang / Anton Artemyev: ULF modulation of VLF waves and precipitation<br />
# Doga Ozturk: Update from GEM/CEDAR joint session, ULF Wave activity and Meso-Scale electric field variability at high-latitude I-T system<br />
# Anatoly Streltsov: ULF waves generated by the MI interactions near the plasmapause<br />
# Mergen Alimaganbetov: ULF waves observed in space and on the ground at high and low latitudes<br />
# Mark Engebretson: Multi-Instrument Observations of Nighttime Impulsive Magnetic Events<br />
# Bob Lysak: Modeling ionospheric conductance and ground magnetic fields<br />
# Yan Song: ULF wave, M-I coupling and Auroral formation.<br />
<br />
[https://drive.google.com/open?id=1wGpZPk086Zs54uWGtYiRjByPmVCFnsSv '''EMIC waves''']: 10:30-12:00, Thursday, June 27 New Mexico room, joint with Radiation Belt. <br />
The generation mechanisms of Electromagnetic Ion Cyclotron (EMIC) waves, their effects on energetic electrons and ions, and their propagation through the magnetosphere-ionosphere system are challenging topics that involve multiple GEM research areas. Despite several years of observations and improved global wave statistics, there are many unresolved questions that limit further investigation, modeling and prediction of dynamical processes in the inner magnetosphere involving EMIC waves. Hence, we invite short presentations that discuss recent findings in different areas of EMIC wave research and identify observations/models most needed to address unresolved questions.<br />
*Robert Allen, Outer magnetospheric EMIC wave source regions characterized by Cluster<br />
*Sarah Vines, EMIC waves in the outer magnetosphere: Observations of an off-equator source region<br />
*Justin Lee, EMIC wave observations by MMS<br />
*Chao Yue, The relationship between EMIC wave properties and proton distributions based on Van Allen Probes observations<br />
*Kristine Sigsbee, Simultaneous EMIC Wave Observations During a Van Allen Probes Conjunction<br />
*Hyomin Kim, Observations of Particle Loss due to Injection-Associated EMIC Waves<br />
*Yuri Shprits, Dips in PSD and how they are related to EMIC wave scattering<br />
*Richard Denton, Electromagnetic ion cyclotron waves in the dipole magnetosphere and pitch angle scattering of sub-MeV relativistic electrons by those waves<br />
*Qianli Ma, Pitch angle scattering of radiation belt electrons due to statistical EMIC wave spectra <br />
<br />
'''Recent advances in ULF wave research: Observations and HGSO coordination for ULF wave studies''': 1:30-3:00, Thursday, June 27 New Mexico room. <br />
Discussion of recent advances in ULF wave research, with focus on observations and a general discussion of Heliophysics/Geospace System Observatory coordination for ULF wave studies. We particularly encourage presentations describing (1) past or upcoming satellite conjunctions, (2) new data analysis tools, and/or (3) instrumentation/operation modes of interest to the ULF wave research community.<br />
*Seth Claudepierre/Matina Gkioulidou (invited), Van Allen Probes: End of Mission and ULF wave studies<br />
*Tetsuo Motoba, SuperMAG ULF wave tools<br />
*Sarah Vines, Determining EMIC wave vector properties through multi-point measurements: The wave curl analysis<br />
*Aaron Breneman, BARREL precipitation during solar wind driven ULF wave events<br />
*Anatoly Streltsov, Effect of the Hall conductivity on generation of ULF waves<br />
*Mohammad Barani, Estimating the Azimuthal Mode Structure of ULF Waves Based on Multiple GOES Satellite Observations<br />
*Kazue Takahashi, L versus time structures of ground magnetic pulsations<br />
*Chih-Ping Wang, Earthward propagation of Pi2 waves<br />
<br />
'''ULF waves driven by wave-particle interactions and instabilities''': 3:30-5:00, Thursday, June 27 Lumpkins Ballroon South, discussion leaders: Xueling Shi and Hyomin Kim. <br />
Many ULF wave modes are closely related to instabilities and wave-particle interactions inside the magnetosphere: poloidal mode waves associated with particle injections, mirror/drift-mirror modes, buoyancy waves… These waves are often discussed in different contexts and in different GEM sessions. In addition, there have been relatively few studies of modeling internally generated ULF waves. The purpose of this session is to bring together modelers and observers to discuss the underlying processes that drive/damp these waves, their impact(s) on the M-I system (ring current, radiation belt, ionosphere,…), and the models/observations needed to better understand wave dynamics.<br />
*Xuzhi Zhou (invited), Acceleration of relativistic electrons by global-scale ULF waves<br />
*Tomotsugu Yamakawa (invited), Simulation of the excitation of storm-time Pc5 ULF waves by ring current ions based on the drift-kinetic model<br />
*Frank Toffoletto, Normal Mode Analysis of Buoyancy Waves <br />
*Peter Chi, Observations of High-m Poloidal Waves along Magnetospheric Field Lines<br />
*Mike Hartinger, Observations of wave-particle interactions using MagEIS ultra-high resolution energy channels<br />
*Jiang Liu, Ultralow Frequency Waves Deep Inside the Inner Magnetosphere Driven by Dipolarizing Flux Bundles, and their interaction with electrons<br />
*Kyle Murphy, TBD<br />
<br />
== 2019 Mini-GEM schedule ==<br />
UMEA will hold one session at the [https://gemworkshop.org/ 2019 mini-GEM] workshop<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 8, 2019, Nevada Room<br />
<br />
'''ULF wave modeling challenge event, HGSO coordination, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge and potential 2020 GEM sessions. The next part of the session is open for ULF wave research presentations discussing the ULF wave modeling challenge event or current/upcoming observation campaigns that are particularly useful for ULF wave studies. The last part of the session will be open for 1 slide ULF wave research highlights.<br />
<br />
*Mike Hartinger, UMEA updates and proposed sessions for 2020 GEM workshop<br />
*Dong Lin, LFM Simulations of ULF wave modeling challenge event<br />
*Mohammad Barani, High-fidelity ULF wave azimuthal mode number structure estimation using MMS magnetometer observations, link to related presentation on YouTube<br />
*Chih-Ping Wang, Inward propagation of Pi2 wave from plasma sheet to inner magnetosphere: THEMIS-GOES conjunctions<br />
*Walk-ins<br />
<br />
== 2020 VGEM schedule ==<br />
UMEA will hold two sessions at the [https://gemworkshop.org/ 2020 Virtual GEM] workshop<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave modeling challenge event'''<br />
(Hosted by Xueling Shi)<br />
The first part of the session is for updates on research related to the challenge event (27-29 May 2017 storm): All modeling and observation talks welcome as long as they're related to this event. The last part of the session will be for short research highlights and oral summaries of posters.<br />
<br />
*Mike Hartinger (10 minutes), 2020 UMEA updates and overview of challenge event<br />
*Simone Di Matteo (15 minutes), On some features characterizing the plasmasphere–magnetosphere–ionosphere system during the geomagnetic storm of 27 May 2017 <br />
*Bob McPherron (15 minutes), ULF wave activity at synchronous orbit during the May 27-29, 2017 Magnetic storm<br />
*Boyi Wang (15 minutes), Ionospheric modulation by storm-time Pc5 ULF waves and wave structure detected by PFISR-THEMIS conjunctions<br />
*Lutz Rastaetter (15 minutes), Idealized ULF wave modeling challenge: high-resolution runs<br />
*Mark Engebretson (5 minutes), Nighttime magnetic perturbation events observed in Arctic Canada: Superposed epoch analysis<br />
*Jinxing Li (5 minutes), Electron microinjections in association with compressional ULF waves: MMS observations<br />
*Xiaojia Zhang (5 minutes), Spreading of Magnetopause-Generated Ultra-Low-Frequency Perturbations and the Associated Whistler Modulation <br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave research highlights'''<br />
These will be contributed talks with priority given to graduate students and postdocs. The rationale is that virtual GEM will not provide the same type of networking opportunities as in-person GEM, and we'd like to balance this somewhat by giving more opportunities to students/postdocs to present their work on ULF waves.<br />
<br />
All presentations are 10 minutes including discussion:<br />
*Rachel Rice, Characteristics of Kelvin-Helmholtz Waves as Observed by MMS<br />
*Dong Lin, Idealized ULF wave simulations with GAMERA-RCM model<br />
*Boyi Wang, The interaction between ions and the ULF waves driven by a foreshock transient<br />
*Jayashree Bulusu, Investigation of Pi2s during super quiet conditions from low and mid-latitudes<br />
*Changzhi Zhai, High-m Poloidal ULF Wave Signatures in GPS TEC Data<br />
*Simone Di Matteo, Power Spectral Density Background Estimate and Signal Detection via the Multitaper Method <br />
*Yixin Hao, Simultaneous observations of localized and global drift resonance<br />
*Mohammad Barani, Effects of realistic mode number structure on radial diffusion estimation<br />
<br />
== 2021 January Virtual Mini-GEM schedule ==<br />
UMEA will hold one session at the Virtual Mini-GEM Worskhop.<br />
<br />
'''Time''': 12:00-14:00 US Eastern Time, Friday, January 22, 2021<br />
<br />
'''ULF wave modeling challenge event, planning for 2021 GEM meeting, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge event, including an invited talk by Naoko Takahashi. The next part of the session will be for open discussion on potential 2021 GEM sessions. The final part of the session will be open for ULF wave research highlights. <br />
*Mike Hartinger, Brief Introduction to Challenge event<br />
*Naoko Takahashi, Relative contribution of ULF waves and whistler-mode chorus to the radiation belt variation during May 2017 storm<br />
*Ian Kelley, GPS TEC response during the ULF wave challenge event<br />
*Mike Hartinger, ULF wave geoelectric fields during the challenge event<br />
*All, Planning for 2021 GEM sessions<br />
*Bob Lysak, FLRs in Jupiter's magnetosphere<br />
*Toshi Nishimura, Upcoming conjunctions for ULF wave studies<br />
*Toshi Nishimura, PFISR and all-sky imager observations of Pc5 ULF waves during substorms<br />
*Francesco Lena, Detection of Hertz Frequency Multiharmonic Field Line Resonances at Low-L (L=1.1–1.5) During Van Allen Probe Perigee Passes<br />
<br />
== 2021 VGEM schedule ==<br />
UMEA will lead four sessions at the [https://gemworkshop.org/ 2021 Virtual GEM] workshop.<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''Recent Advances in ULF Wave Research'''<br />
This session will start with a short update on the ULF wave modeling challenge. The rest of the session will be for recent advances in ULF wave research, with priority given to presentations (1) with data or modeling results related to the challenge event (27-28 May 2017) or (2) discussions of ULF wave data-model comparisons.<br />
<br />
*Michelle Salzano, IPDP-Pi1B - modeling drift shell splitting<br />
*Aditi Upadhyay, Occurrence Characteristics of Electromagnetic Ion Cyclotron Waves at the Indian Antactrtic Station, Maitri<br />
*Yangyang Shen, Tens to hundreds of keV electron precipitation driven by kinetic Alfven waves during an electron injection<br />
*Chih-Ping Wang, Statistical results for Pi2 waves associated with the plasma sheet BBFs observed by THEMIS-RBSP pair with RBSP inside or outside the plasmasphere<br />
*Tom Elsden, Modelling the Varying Location of Field Line Resonances During Geomagnetic Storms<br />
*Denny Oliveira, Factors controlling shock-induced magnetospheric ULF waves<br />
*Short Oral Summaries of Posters<br />
*Open Discussion<br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''The Future of ULF Wave Research'''<br />
<br />
Hosted by Ayomide Olabode<br />
<br />
This session will begin with a review of the ULF wave FG’s original goals, research topics covered in the last 5 years and related activities, and unresolved questions and research objectives. The remainder of the session is open for 1-2 slide presentations on major unresolved questions in ULF wave research. We particularly encourage presentations (1) exploring topics that could be addressed by current/future GEM FG or decadal survey white paper, (2) highlighting major questions or obstacles preventing progress in ULF wave research (e.g., missing data in a critical region, missing theory/modeling component), (3) discuss how ULF wave researchers can best take advantage of future satellite missions, ground-based infrastructure, computing advances/big data/AI, and modeling/theory advances. <br />
<br />
*Mike Hartinger, Retrospective on the ULF wave focus group<br />
*Martin Archer, Surface Waves<br />
*Tom Elsden, 3D FLRs<br />
*Alexander Drozdov, Radial Diffusion<br />
*Ayomide Olabode and Michelle Salzano, Ground Magnetic Perturbations<br />
*Mark Engebretson, Pc1 waves / MMS k-vector technique<br />
*Xueling Shi, Applications of TEC observations<br />
*Open discussion, walk-in presentations welcome<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Tuesday, July 27, 2021<br />
<br />
'''ULF Wave M-I Coupling Processes'''<br />
This session is joint with the IEMIT FG. The session will begin with a review of the role of ULF waves on M-I coupling. The remainder of the session is open for 5-min presentations on ULF wave topics related to M-I coupling, e.g., auroral acceleration, particle precipitation, geomagnetic perturbations, GICs, etc. More questions and discussions will be left to the end.<br />
<br />
*Hui Zhang, Role of ULF waves in M-I coupling<br />
*Chaosong Huang, Global Pc5 pulsations<br />
*Tetsuo Motoba, Daytime Pc5 Diffuse Auroral Pulsations and Their Association With Outer Magnetospheric ULF Waves<br />
*Anton Artemyev, ULF driven precipitations as observed by ELFIN<br />
*Mark Engebretson, Magnetic perturbation events related to GICs<br />
*Denny Oliveira, IP shock impact angle control of local intense dB/dt variations during substorm<br />
*Xueling Shi, Sources of Intense Geoelectric Fields in the United States<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Friday, July 30, 2021<br />
<br />
'''Coupling Between ULF Waves and Cold Plasma'''<br />
<br />
Hosted by Rachel Rice<br />
<br />
This session is joint with the Cold Plasma FG. The session will begin with a review of mechanisms that couple cold plasma populations to ULF waves by Richard Denton. The remainder of the session is for contributed presentations describing (1) recent advances in our understanding of cold plasma interactions with ULF waves and (2) outstanding questions that could be discussed in future cold plasma FG sessions.<br />
<br />
*Richard Denton, Coupling Between ULF Waves and Cold Plasma<br />
*Alex Degeling, Modeling ULF Waves Trapped in a Plasmaspheric Density Plume <br />
*Eun Hwa Kim, Can Electromagnetic Ion Cyclotron Waves Propagate to the Ground?: 2D Full Wave Simulation<br />
*Bob Lysak, Relation of plasmaspheric cavity modes to Pi2 pulsations in an asymmetric plasmasphere<br />
*Yixin Hao, ULF wave-cold plasma interaction<br />
*Mike Hartinger, The relationship between global ULF wave properties and radial Alfven speed profile<br />
<br />
== 2021 Mini-GEM ==<br />
<br />
Recent findings in various areas of EMIC wave research<br />
<br />
Time: 5:30-7:00 CST, Sunday, December 12, 2021<br />
The session will take place in Hilton Garden Inn New Orleans Convention Center (1001 South Peters Street New Orleans, LA 70130), in Room Anzalea. <br />
<br />
Presentations:<br />
*Justin H. Lee, MMS measurements of cold and hot ion composition and EMIC waves<br />
*Kristine Sigsbee, Statistics of Electromagnetic Ion Cyclotron (EMIC) Rising Tones <br />
*Michael Hartinger, Short overview of open questions<br />
*Open discussion</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=FG:_ULF_Wave_Modeling,_Effects,_and_Applications&diff=6379FG: ULF Wave Modeling, Effects, and Applications2024-01-24T22:53:03Z<p>Mdhartin: </p>
<hr />
<div>''Focus Group Leaders:''<br />
* Michael Hartinger, Space Science Institute (mhartinger@spacescience.org)<br />
* Kazue Takahashi, Applied Physics Laboratory<br />
* Alexander Drozdov, UCLA<br />
* Maria Usanova, University of Colorado<br />
* Brian Kress, University of Colorado and NOAA-NCEI<br />
* Xueling Shi, Virginia Tech<br />
<br />
Focus Group term: 2016-2021<br />
<br />
== Science Questions ==<br />
Our group aims to address the following broad science questions: What mechanisms excite ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in Magnetosphere-Ionosphere coupling?<br />
<br />
== Focus Group Proposal ==<br />
[http://gem.epss.ucla.edu/mediawiki/FGproposals/Hartinger-UMEA.pdf ULF Wave Modeling, Effects, and Applications (UMEA)] (December 2015)<br />
<br />
== Focus Group Final Publications ==<br />
Review of Focus Group activities from 2016-2021: [https://www.frontiersin.org/articles/10.3389/fspas.2022.867394/full ULF Wave Modeling, Effects, and Applications: Accomplishments, Recent Advances, and Future]<br />
<br />
Summary of panel discussion during joint session with RB focus group at the 2021 GEM workshop: [https://agupubs.onlinelibrary.wiley.com/doi/10.1029/2022EA002216 Radial Transport Versus Local Acceleration: The Long-Standing Debate]<br />
<br />
== ULF wave modeling challenge ==<br />
<br />
One part of the ULF wave modeling challenge involves running several global MHD simulation codes with identical, idealized solar wind driving conditions (sinusoidal density variation), then comparing the resulting global ULF wave properties and discussing differences in the context of differing boundary conditions, grids, etc. More details can be found here: [http://ccmc.gsfc.nasa.gov/challenges/ULF/ ULF wave modeling challenge at CCMC]<br />
<br />
Another part of the ULF wave modeling challenge involves data-model comparisons during specific events. At the 2017 GEM and mini-GEM meetings several [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing challenge events] were proposed, including two [https://drive.google.com/open?id=1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI 2017 events].<br />
<br />
We have selected the [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing 27-28 May 2017 storm event] for the ULF wave modeling challenge due to favorable solar wind coverage and availability of numerous satellites (MMS, ARASE, THEMIS, RBSP, Cluster, GOES, ...) and ground-based observations for global context and multi-point wave observations. We will be continuously updating this [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing overview presentation] with observation and modeling results. Model output and observations for the challenge event - including global densities from the NURD model - can be obtained [https://drive.google.com/drive/folders/1Bk9vJtbEHd-vSuYqr3UG9NGCqaBn69hw?usp=sharing here]. If you would like to add additional observations/model output to the google drive or overview pdf, please contact the co-chairs.<br />
<br />
CCMC has run several global MHD simulation codes using the driving conditions of the ULF wave challenge event. At the 2019 GEM meeting and future GEM/mini-GEM meetings, we plan data-model comparisons to identify where model/data don't agree and discuss these differences in the context of incorrect boundary conditions (e.g., compare model ionosphere to local PFISR-derived conductivities), missing physics, numerical dissipation, etc. Please contact CCMC/Lutz Rastaetter and model developers before using this simulation output in publications:<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_SWMF_040319_1 Space Weather Modeling Framework simulation], IMF Bx=0 (other parameters as in event). Full 2-day event, 3D output every 15s, virtual ground magnetometer. If you haven't used CCMC visualization tools before, be aware that you shouldn’t submit multiple visualization requests at the same time, as this could crash CCMC server for these large 3D files. Instead, request a batch process or wait for the first visualization request to complete. The easiest/fastest visualization is to follow the link above and scroll down until you see the virtual ground magnetometer and satellites list. Click on the magnetometer/satellite of interest, then select which parameter(s) to display/download. <br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_1 OpenGGCM run 1] – IMF Bx = -7 nT. Smaller time range available on 28 May 0400-1000, only virtual ground magnetometer from POKR/CMO available now. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_1 Full results including virtual satellite.]<br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_2 Open GGCM run 2] – IMF Bx = 0 nT (as in SWMF simulation). Same format as other OpenGGCM simulation. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_2 Full results including virtual satellite.]<br />
<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_LFM_051519_2 LFM simulation]<br />
<br />
== ULF wave HGSO event coordination ==<br />
Our group is helping coordinate analysis of conjunction events for ULF wave studies, including requesting instrument operation modes favorable for ULF wave analysis.<br />
<br />
The [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] 0400-0800 UT conjunction event includes several satellites (THEMIS, Cluster, Van Allen Probes, GOES, Geotail, FIREBIRD, METOP, POES, DMSP) in the pre-midnight sector during a conjunction with the Poker Flat Incoherent Scatter Radar and several SuperDARN radars. PFISR was operating throughout the conjunction, several SuperDARN radars were in high resolution sampling modes, and several satellites were operating in fast survey/burst mode. The conjunction is favorable for modeling and observation studies of magnetosphere-ionosphere coupling via ULF waves, wave-particle interactions, global ULF wave properties, and many other topics. [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing This pdf] summarizes preliminary results<br />
<br />
Several web-based tools are available for identifying future conjunctions, including [https://ergsc.isee.nagoya-u.ac.jp/analysis/index.shtml.en upcoming conjunctions between ARASE and Van Allen Probes/ground] and conjunctions between [https://swarm-aurora.com/conjunctionFinder/ SWARM/all-sky cameras].<br />
<br />
'''There are also many specialized, web-based tools for ULF wave analysis (please contact FG co-chairs to add to this list):'''<br />
<br />
*SuperMAG ground-based magnetometer [http://supermag.jhuapl.edu/rBrowse/?start=2001-01-30T05%3A00%3A00.000Z&step=14400 global ULF wave plots]<br />
<br />
*CARISMA ground-based magnetometer [http://www.carisma.ca/carisma-data/fgm-pc1-power-spectra Pc1 power spectra] and [http://www.carisma.ca/carisma-data/fgm-pc5-power-spectra Pc5 power spectra]<br />
<br />
*Augsburg College/UNH Arctic and Antarctic [http://space.augsburg.edu/searchcoil/index.html search coil magnetometer survey plots] <br />
<br />
*Augsburg College (hosted by ViRBO) [http://virbo.org/Augsburg/ULF ULF wave index]<br />
<br />
*[http://vt.superdarn.org/tiki-index.php?page=DaViT+DynFFT SuperDARN wave analysis] and [http://vt.superdarn.org/tiki-index.php?page=Data+Inventory identification of high time-resolution SuperDARN beams]<br />
<br />
*THEMIS satellite fluxgate magnetometer [http://themis.ssl.berkeley.edu/summary.php?year=2014&month=05&day=11&hour=0024&sumType=thmfgmdyn&type=themislinfgl wave survey plots]<br />
<br />
*National Institute of Polar Research inter-hemispheric comparisons of Syowa/Iceland [http://iugonet0.nipr.ac.jp/web/induction/ induction magnetometer spectra]<br />
<br />
*[http://mist.nianet.org/Satellite_Conjunctions/ Inter-hemispheric comparisons] during satellite conjunctions with Arctic(DTU Space)/Antarctic(Virginia Tech) magnetometers<br />
<br />
*[http://kho.unis.no/uaf_msp.htm Meridian Scanning Photometer plots] from [http://kho.unis.no/ UNIS/Kjell Henriksen Observatory], for context on open-closed boundary and ULF modulation of the aurora<br />
<br />
== Summary Reports for GEM workshops ==<br />
[https://drive.google.com/file/d/1QLH8FcKm3-f25aLwoetOuYJGZu5sPgN3/view?usp=sharing 2016 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1SRIv6Gn-NNnqGPHGvjvZQcdDml2GQpv_/view?usp=sharing 2017 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1clzFHWrxC9hvYf9kECJx4bPn9xn8WwsG/view?usp=sharing 2018 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1_fLwZFCLBTBHnq8HkaFPWUvaIY81E-t0/view?usp=sharing 2019 UMEA FG report]<br />
<br />
== 2016 Mini-GEM schedule ==<br />
UMEA will hold one session at the [http://www.cpe.vt.edu/gem-mini/ mini-GEM workshop]: ULF wave modeling, effects and applications updates<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 11, 2016<br />
<br />
'''Location''': Oregon Room, Holiday Inn Golden Gateway<br />
<br />
'''Schedule:'''<br />
<br />
'''First Half (12:00 – 12:45): 3 talks (~15 min each):'''<br />
<br />
*1. Mike Hartinger -- Overview of UMEA current activities, discussion of future plans<br />
<br />
*2. Lutz Rastaetter -- ULF wave modeling challenge at CCMC<br />
<br />
*3. Robert Rankin -- Modeling the global properties and ground-based signatures of ULF waves and wave-particle interactions<br />
<br />
'''Second Half (12:45 – 13:30): (5 minutes each, 1-2 slides, order of talks may change):'''<br />
<br />
*1. Xueling Shi -- SuperDARN THEMIS Mode Data Tracker & ULF Wave Detection<br />
<br />
*2. Richard Denton -- Mass density inferred from Alfven wave frequencies measured by RBSP<br />
<br />
*3. Lars Daldorff -- ULF waves, particle transport and energization in global MHD simulations with plasmasphere<br />
<br />
*4. Alexander Drozdov -- Dependence of radiation belt simulations to assumed radial diffusion rates tested for two empirical models of radial transport<br />
<br />
*5. Bob Lysak -- Quarter Wavelength Modes<br />
<br />
*6. Walk-ins<br />
<br />
== 2017 GEM meeting schedule ==<br />
UMEA will hold four sessions session at the 2017 GEM meeting<br />
<br />
'''UMEA Update and plans, general discussion of ULF wave modeling and observations''': 10:30-12:15, Monday, June 19, Port VI-VIII<br />
<br />
*1. Michael Hartinger -- UMEA update<br />
<br />
*2. Toshi Nishimura -- PFISR measurements during the 2 May 2017 HGSO event<br />
<br />
*3. Xueling Shi -- A Survey of Ionospheric ULF Wave Signatures in SuperDARN Data: Occurrence Statistics and Driving Mechanisms<br />
<br />
*4. Tetsuo Motoba -- Dayside Auroral Pulsations<br />
<br />
*5. Brian Kress and Rob Redmon -- Newly Available GOES 8-16 Particle and Magnetic Field Measurements<br />
<br />
*6. Dick Wolf -- Theory of magnetospheric buoyancy waves<br />
<br />
<br />
'''ULF wave interactions with the radiation belt and ring current populations''': 1:30-3:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Rualdo Soto-Chavez -- Generation of Pc5-ULF wave by the drift-mirror instability<br />
<br />
*2. Zhiyang Xia -- Eigenmode analysis of compressional poloidal modes in a self-consistent magnetic field<br />
<br />
*3. Mark Engebretson -- Statistical study of the upper frequency cutoff of helium band EMIC waves observed by the Van Allen Probes<br />
<br />
*4. Alexander Drozdov -- Radial diffusion and EMIC waves in the long-term simulation and in the case study<br />
<br />
*5. Seth Claudepierre -- Global MHD simulations driven by idealized Alfvenic fluctuations in the solar wind<br />
<br />
*6. Michael Hartinger -- Radiation belt response to large scale, monochromatic ULF waves: LANL-GEO observations<br />
<br />
<br />
'''ULF wave modeling, including CCMC modeling challenge, Joint with MMV''': 3:30-5:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Lutz Rastaetter -- CCMC ULF wave modeling challenge update and challenge events<br />
<br />
*2. Scot Elkington -- ULF wave activity and diffusion coefficients during QARBM challenge events, Ashar F. Ali’s write-up on Event-Specific Radial Diffusion Coefficients Derived Using RBSP EMFISIS and EFW Data<br />
<br />
*3. Katariina Nykyri -- KHI challenge events<br />
<br />
*4. All -- Open Discussion of Challenge Events<br />
<br />
*5. Doga Ozturk -- Effects of Increased Solar Wind Dynamic Pressure on the Coupled M-I system under different IMF By<br />
<br />
*6. Kazue Takahashi -- Cavity mode Van Allen Probe observations<br />
<br />
*7. Bob Lysak -- Cavity mode models<br />
<br />
*8. Tom Elsden -- The Theoretical Foundation of 3D Alfven Resonances: Time Dependent Solutions<br />
<br />
<br />
'''Magnetosphere-Ionosphere coupling processes associated with localized disturbances caused by dayside kinetic phenomena: Joint with “Dayside Kinetic Processes…” and “Testing proposed links…”''': 3:30-5:00, Tuesday, June 20, Port VI-VIII<br />
<br />
*1. Peter Chi -- Magnetospheric and ionospheric responses to a localized disturbance: The macroscopic view<br />
<br />
*2. Hui Zhang -- Magnetospheric ULF waves generated by foreshock transients<br />
<br />
*3. Hui Zhang -- Modeling challenges in simulating HFA geoeffects<br />
<br />
*4. Boyi Wang -- Optical signatures of dayside ULF waves during magnetosheath high-speed jets<br />
<br />
*5. Katariina Nykyri -- The effect of magnetosheath seed spectrum on KH evolution and associated mass transport<br />
<br />
*6. Kyle Murphy -- A statistical study of discrete ULF wave power observed by GOES<br />
<br />
== 2017 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2017 mini-GEM] workshop<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 10, 2017, Canal/50<br />
<br />
'''ULF wave modeling challenges'''<br />
Discussion of final plans for the CCMC ULF wave modeling challenge with idealized drivers, as well as open discussion of new challenges involving data-model and model-model comparisons during specific events. Please come with 1-2 slides showing examples of such comparisons, ideas for improving ULF wave models, and/or ideas for specific modeling challenges/sessions relevant to the FG science questions.<br />
<br />
*1. 12:00-12:30 Overview of CCMC ULF wave modeling challenge with idealized driving conditions, description of challenge events and targets proposed during 2017 GEM meeting and November modeling telecon (Michael Hartinger, Lutz Rastaetter)<br />
*2. 12:30-13:30 Open discussion of challenge events and targets (Allison Jaynes, Robert Rankin), select challenge event to be analyzed at 2018 GEM<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 10, 2017, Canal/50<br />
<br />
'''Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
Discussion of HGSO coordination for ULF wave studies. This includes updates on the 2 May 2017 conjunction event followed by an open discussion of conjunctions and datasets that are particularly useful for ULF wave studies, including upcoming RBSP-ERG-ground conjunctions. Please come with 1-2 slides showing examples of datasets and past/upcoming conjunctions ideal for addressing the FG science questions: What excites ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in MI coupling? We welcome discussion from both modelers and observers of the types of conjunctions and observations that are most needed to address these questions.<br />
<br />
*1. 13:50-14:20 Recently available datasets and conjunctions for ULF wave studies (Chih-Ping Wang, Xueling Shi, Sana Qamar, Rob Redmon)<br />
*2. 14:20-14:35 Updates on 2 May 2017 conjunction event (Toshi Nishimura, Michael Hartinger)<br />
*3. 14:35-15:20 Upcoming ARASE-RBSP conjunctions (Yoshi Miyoshi), Open Discussion of HGSO coordination for ULF wave studies (Toshi Nishimura, Kazue Takahashi)<br />
<br />
== 2018 GEM meeting schedule ==<br />
UMEA will hold four sessions at the 2018 GEM meeting. <br />
<br />
'''ULF waves during particle injections and dipolarizations, joint with Dipolarization and Substorm FG''': 10:30-12:00, Monday, June 18<br />
<br />
*1. Discussion of Session Topic<br />
<br />
*2. Bob Lysak -- Ionospheric Conductivity Effects on Pi2 Pulsations<br />
<br />
*3. Mike Hartinger -- Pi2 waves during an extended period with stable plasmapause location and variable geomagnetic activity<br />
<br />
*4. Toshi Nishimura -- Ionosphere observations of Pc5 ULF waves during 2018 HGSO conjunctions<br />
<br />
*5. Xueling Shi -- Long-lasting poloidal ULF waves observed by multiple satellite and SuperDARN HF radars<br />
<br />
*6. Jian Yang -- New RCM-I simulation results for buoyancy waves<br />
<br />
*7. Dick Wolf -- Theory of Buoyancy Waves<br />
<br />
*8. Yan Song -- What Causes the Substorm Expansion Phase and Associated ULF Waves?<br />
<br />
<br />
'''Recent advances in ULF wave research''': 1:30-3:00, Monday, June 18 <br />
<br />
*1. Overview of focus group goals and recent progress<br />
<br />
*2. Brief ULF wave poster overviews (Tuesday posters)<br />
<br />
*3. Kazue Takahashi -- Observation of nightside ULF waves by RBSP and Arase<br />
<br />
*4. Tom Elsden -- Broadband Excitation of 3D Alfven Resonances (FLRs) in an MHD Waveguide<br />
<br />
*5. Boyi Wang -- 2-D structure of foreshock driven Pc5 ULF waves observed by the THEMIS satellites and South Pole imager<br />
<br />
*6. Xiaochen Shen -- Foreshock transient-driven ultra-low frequency (ULF) waves with dawn-dusk asymmetry of wave power<br />
<br />
*7. Chih-Ping Wang -- ULF waves possibly driven by tailward propagation of foreshock perturbations<br />
<br />
*8. Allison Jaynes -- Fast diffusion of ultra-relativistic electrons in the outer radiation belt: 17 March 2015 storm event<br />
<br />
*9. Rualdo Soto -- The Drift-Mirror instability in Earth's inner magnetosphere<br />
<br />
*10. Martin Archer/Mike Hartinger -- Results from Sonification and Citizen Science of Magnetospheric ULF waves<br />
<br />
<br />
'''EMIC wave generation, propagation, and interactions''': 3:30-5:00, Monday, June 18 (discussion leaders: Alexander Drozdov and Maria Usanova)<br />
Session Summary<br />
<br />
*1. Dedong Wang -- EMIC wave observations from Van Allen Probes and MMS<br />
<br />
*2. Mark Engebretson -- Van Allen Probes, and ground based magnetometer observations of EMIC waves associated with a modest interplanetary shock<br />
<br />
*3. Maria Usanova -- MMS Observations of Harmonic Electromagnetic Cyclotron Waves<br />
<br />
*4. Naritoshi Kitamura -- Direct measurements of energy transfer from hot H+ to EMIC waves by MMS<br />
<br />
*5. Bruce Fritz -- ELF Whistler Dependence on a Sunlit Ionosphere<br />
<br />
*6. Chae-Woo Jun -- EMIC waves associated with/without the injection inside/outside the plasmapause<br />
<br />
*7. Hyomin Kim -- Injection-associated EMIC waves<br />
<br />
*8. Sebastian Cervantes -- EMIC wave parameterization in radiation belt reanalysis<br />
<br />
*9. Maria Usanova -- Long-term correlation of EMIC wave activity and radiation belt flux variations<br />
<br />
*10. Alexander Drozdov -- The effects due to the EMIC waves in the VERB code modeling<br />
<br />
<br />
'''ULF wave modeling challenge, joint with MMV FG''': 3:30-5:00, Wednesday, June 20<br />
<br />
*1. Brief ULF wave poster overviews (Thursday posters)<br />
<br />
*2. Mike Hartinger: ULF wave modeling challenge event overview, discussion of challenge targets (continuing during session)<br />
<br />
*3. Mariko Teramoto: ARASE ULF wave observations during challenge event<br />
<br />
*4. Sam Califf: GOES-14 and 16 observations during the ULF wave challenge event, Data Discussion<br />
<br />
*5. Toshi Nishimura: PFISR measurements of the 27-28 May 2017 ULF waves<br />
<br />
*6. Dogacan Su Ozturk: The modeling study of the 27 March 2017 Event <br />
<br />
*7. Xiaochen Shen: GEM Challenge Event: ULF wave-related electron and proton precipitation/negative dynamic pressure pulse driven EMIC wave<br />
<br />
*8. Tetsuo Motoba: Auroral measurements of the 27-28 May 2017 ULF waves<br />
<br />
*9. Others discuss when their figures/summary plots in event overview pdf are presented…<br />
<br />
== 2018 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2018 mini-GEM] workshop<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF modulation of the aurora, Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
This session focuses on understanding a variety of mechanisms responsible for ULF modulations of the aurora. Eric Donovan will give a 30 minute invited presentation, with the rest of the session open for presentations and discussion on this topic. We welcome discussion of ULF aurora generation mechanisms and the types of conjunctions, observations, and models needed to understand the zoo of ULF auroral modulations. We also welcome discussion of upcoming observation campaigns/satellite conjunctions that would be particularly useful for ULF wave studies.<br />
<br />
*1. Eric Donovan<br />
*2. Tetsuo Motoba<br />
*3. Slava Pilipenko<br />
*4. Boyi Wang / Toshi Nishimura<br />
*5. Open discussion<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF wave modeling challenge and research highlights'''<br />
The first part of the session is for updates on the idealized ULF wave modeling challenge and potential 2019 GEM sessions. The next part of the session is for observation/model presentations relevant to the 27-28 May 2017 ULF wave challenge event and final selection of the modeling challenge targets – all types of models and observations welcome. The last part of the session will be open for 1 slide ULF wave modeling and observation research highlights. <br />
<br />
*1. 2019 GEM session ideas (Mike Hartinger)<br />
*2. Idealized Modeling Challenge (Lutz Rastaetter)<br />
*3. ULF wave modeling challenge event updates: Rob Redmon/Sam Califf/Mike Hartinger (GOES magnetometer observations), Yoshi Miyoshi (Arase magnetic field observations), Hyomin Kim (wave-particle interaction), Dong Lin (LFM simulations)<br />
*4. General ULF wave modeling: Yaireska Collado-Vega (vortex identification/surface waves), Alex Degeling (ULF wave radiation belt interactions)<br />
*5. Research highlights (1-slide): Rualdo Soto (Van Allen Probes and Cluster satellites’ observations of Pc 5 (mHz) magnetic pulsations), Xueling Shi (SuperDARN ULF waves), Martin Archer (magnetopause surface eigenmodes), Martin Archer (sonification)<br />
<br />
== 2019 GEM meeting schedule ==<br />
<br />
UMEA will hold [https://drive.google.com/file/d/1KmH9XqxrisGH_g4s0ny7QDkutmv7tKlr/view?usp=sharing six sessions] at the 2019 GEM meeting, four joint with other focus groups. <br />
<br />
'''Recent advances in ULF wave research: Modeling''': 3:30-5:00, Monday, June 24 New Mexico room, joint with MMV. <br />
Discussion of advances in ULF wave research, with focus on modeling and modeling challenges (e.g., boundary conditions, grid resolution, missing physics). This includes models of the effects of ULF waves on inner magnetosphere dynamics and wave-particle interactions. We particularly encourage presentations focused on the ULF wave modeling challenge, including data-model comparisons for the 27-28 May 2017 challenge event.<br />
*Mike Hartinger, FG updates<br />
*Jesper Gjerloev, SuperMAG ULF updates<br />
*Tetsuo Motoba, High-time resolution SuperMAG ULF data products<br />
*Lutz Rastaetter, ULF wave modeling challenge<br />
*Maulik Patel, MHD test particle simulations of the 16 July 2017 shock compression of the dayside magnetopause <br />
*Bob McPherron, Pi 2 pulsations during the storm of May 27-29 2017, The Statistics of Pi 2 Pulsation Occurrence during a Major Magnetic Storm<br />
*Dong Lin, LFM simulations of surface waves during challenge event<br />
<br />
'''The ULF response to dayside transients with different temporal/spatial scales''': 10:30-12:00, Wednesday, June 26 Santa Fe room, discussion leader: Tom Elsden, joint with Dayside Kinetics and IHMIC. <br />
Dayside transient phenomena associated with kinetic scale processes cause a variety of ULF wave behaviour in the magnetosphere and further, contribute to significant magnetospheric asymmetries. The aim of this session is to bring together the expertise of the three focus groups listed above, to answer outstanding questions at the overlap of these disciplines. It is hoped that such a discussion should prove fruitful enough to generate a JGR commentary paper in this area. With this in mind, speakers in this session are encouraged to give their views as to the current state of the subject area, and how outstanding problems may be addressed in the future.<br />
* Tom Elsden - Session introduction and goals<br />
* Ferdinand Plaschke (invited) - An overview of dayside transients causing ULF waves<br />
* Tom Elsden - 3D ULF wave modeling with MHD<br />
* Boyi Wang - The role of magnetosheath high-speed jets in triggering magnetospheric Pc5 ULF waves<br />
* Bob Lysak - Ionospheric asymmetries and quarter-wave modes<br />
* Xueling Shi - Conjugate Observations of ULF Waves during an Extended Period of Radial IMF<br />
* Michael Hartinger - Localized magnetopause surface wave activity and modeling challenges<br />
* Discussion<br />
<br />
'''ULF wave modeling challenges associated with Magnetosphere-Ionosphere-Thermosphere Coupling''': 3:30-5:00, Wednesday, June 26 Lumpkins Ballroon South, joint with IEMIT, discussion leader Doga Ozturk. <br />
ULF waves play important roles in M-I-T coupling, driving current systems that can lead to I-T system heating and geomagnetically induced currents. This session aims to bring together researchers from the ULF wave and M-I-T coupling research communities to discuss challenges associated with realistically modeling M-I-T coupling processes associated with these waves. The session will begin with a discussion of the ULF wave challenge event; comparisons between modeled / observed (PFISR) conductivities and modeled/observed ULF wave properties will be presented, and the community will be invited to discuss explanations for model/observation differences. The rest of the session is open for short presentations on ULF wave modeling challenges related to M-I-T coupling, including topics such as specifying conductivity and effect of conductivity on wave properties, effect of ionospheric boundary conditions in global simulations, boundary conditions and feedback between magnetosphere and ionosphere, capturing role of waves in ionospheric-thermospheric heating.<br />
# (Invited) Boyi Wang: Ionospheric modulation by Pc5 ULF waves and wave structure detected by PFISR<br />
# (Invited) Xiaojia Zhang / Anton Artemyev: ULF modulation of VLF waves and precipitation<br />
# Doga Ozturk: Update from GEM/CEDAR joint session, ULF Wave activity and Meso-Scale electric field variability at high-latitude I-T system<br />
# Anatoly Streltsov: ULF waves generated by the MI interactions near the plasmapause<br />
# Mergen Alimaganbetov: ULF waves observed in space and on the ground at high and low latitudes<br />
# Mark Engebretson: Multi-Instrument Observations of Nighttime Impulsive Magnetic Events<br />
# Bob Lysak: Modeling ionospheric conductance and ground magnetic fields<br />
# Yan Song: ULF wave, M-I coupling and Auroral formation.<br />
<br />
[https://drive.google.com/open?id=1wGpZPk086Zs54uWGtYiRjByPmVCFnsSv '''EMIC waves''']: 10:30-12:00, Thursday, June 27 New Mexico room, joint with Radiation Belt. <br />
The generation mechanisms of Electromagnetic Ion Cyclotron (EMIC) waves, their effects on energetic electrons and ions, and their propagation through the magnetosphere-ionosphere system are challenging topics that involve multiple GEM research areas. Despite several years of observations and improved global wave statistics, there are many unresolved questions that limit further investigation, modeling and prediction of dynamical processes in the inner magnetosphere involving EMIC waves. Hence, we invite short presentations that discuss recent findings in different areas of EMIC wave research and identify observations/models most needed to address unresolved questions.<br />
*Robert Allen, Outer magnetospheric EMIC wave source regions characterized by Cluster<br />
*Sarah Vines, EMIC waves in the outer magnetosphere: Observations of an off-equator source region<br />
*Justin Lee, EMIC wave observations by MMS<br />
*Chao Yue, The relationship between EMIC wave properties and proton distributions based on Van Allen Probes observations<br />
*Kristine Sigsbee, Simultaneous EMIC Wave Observations During a Van Allen Probes Conjunction<br />
*Hyomin Kim, Observations of Particle Loss due to Injection-Associated EMIC Waves<br />
*Yuri Shprits, Dips in PSD and how they are related to EMIC wave scattering<br />
*Richard Denton, Electromagnetic ion cyclotron waves in the dipole magnetosphere and pitch angle scattering of sub-MeV relativistic electrons by those waves<br />
*Qianli Ma, Pitch angle scattering of radiation belt electrons due to statistical EMIC wave spectra <br />
<br />
'''Recent advances in ULF wave research: Observations and HGSO coordination for ULF wave studies''': 1:30-3:00, Thursday, June 27 New Mexico room. <br />
Discussion of recent advances in ULF wave research, with focus on observations and a general discussion of Heliophysics/Geospace System Observatory coordination for ULF wave studies. We particularly encourage presentations describing (1) past or upcoming satellite conjunctions, (2) new data analysis tools, and/or (3) instrumentation/operation modes of interest to the ULF wave research community.<br />
*Seth Claudepierre/Matina Gkioulidou (invited), Van Allen Probes: End of Mission and ULF wave studies<br />
*Tetsuo Motoba, SuperMAG ULF wave tools<br />
*Sarah Vines, Determining EMIC wave vector properties through multi-point measurements: The wave curl analysis<br />
*Aaron Breneman, BARREL precipitation during solar wind driven ULF wave events<br />
*Anatoly Streltsov, Effect of the Hall conductivity on generation of ULF waves<br />
*Mohammad Barani, Estimating the Azimuthal Mode Structure of ULF Waves Based on Multiple GOES Satellite Observations<br />
*Kazue Takahashi, L versus time structures of ground magnetic pulsations<br />
*Chih-Ping Wang, Earthward propagation of Pi2 waves<br />
<br />
'''ULF waves driven by wave-particle interactions and instabilities''': 3:30-5:00, Thursday, June 27 Lumpkins Ballroon South, discussion leaders: Xueling Shi and Hyomin Kim. <br />
Many ULF wave modes are closely related to instabilities and wave-particle interactions inside the magnetosphere: poloidal mode waves associated with particle injections, mirror/drift-mirror modes, buoyancy waves… These waves are often discussed in different contexts and in different GEM sessions. In addition, there have been relatively few studies of modeling internally generated ULF waves. The purpose of this session is to bring together modelers and observers to discuss the underlying processes that drive/damp these waves, their impact(s) on the M-I system (ring current, radiation belt, ionosphere,…), and the models/observations needed to better understand wave dynamics.<br />
*Xuzhi Zhou (invited), Acceleration of relativistic electrons by global-scale ULF waves<br />
*Tomotsugu Yamakawa (invited), Simulation of the excitation of storm-time Pc5 ULF waves by ring current ions based on the drift-kinetic model<br />
*Frank Toffoletto, Normal Mode Analysis of Buoyancy Waves <br />
*Peter Chi, Observations of High-m Poloidal Waves along Magnetospheric Field Lines<br />
*Mike Hartinger, Observations of wave-particle interactions using MagEIS ultra-high resolution energy channels<br />
*Jiang Liu, Ultralow Frequency Waves Deep Inside the Inner Magnetosphere Driven by Dipolarizing Flux Bundles, and their interaction with electrons<br />
*Kyle Murphy, TBD<br />
<br />
== 2019 Mini-GEM schedule ==<br />
UMEA will hold one session at the [https://gemworkshop.org/ 2019 mini-GEM] workshop<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 8, 2019, Nevada Room<br />
<br />
'''ULF wave modeling challenge event, HGSO coordination, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge and potential 2020 GEM sessions. The next part of the session is open for ULF wave research presentations discussing the ULF wave modeling challenge event or current/upcoming observation campaigns that are particularly useful for ULF wave studies. The last part of the session will be open for 1 slide ULF wave research highlights.<br />
<br />
*Mike Hartinger, UMEA updates and proposed sessions for 2020 GEM workshop<br />
*Dong Lin, LFM Simulations of ULF wave modeling challenge event<br />
*Mohammad Barani, High-fidelity ULF wave azimuthal mode number structure estimation using MMS magnetometer observations, link to related presentation on YouTube<br />
*Chih-Ping Wang, Inward propagation of Pi2 wave from plasma sheet to inner magnetosphere: THEMIS-GOES conjunctions<br />
*Walk-ins<br />
<br />
== 2020 VGEM schedule ==<br />
UMEA will hold two sessions at the [https://gemworkshop.org/ 2020 Virtual GEM] workshop<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave modeling challenge event'''<br />
(Hosted by Xueling Shi)<br />
The first part of the session is for updates on research related to the challenge event (27-29 May 2017 storm): All modeling and observation talks welcome as long as they're related to this event. The last part of the session will be for short research highlights and oral summaries of posters.<br />
<br />
*Mike Hartinger (10 minutes), 2020 UMEA updates and overview of challenge event<br />
*Simone Di Matteo (15 minutes), On some features characterizing the plasmasphere–magnetosphere–ionosphere system during the geomagnetic storm of 27 May 2017 <br />
*Bob McPherron (15 minutes), ULF wave activity at synchronous orbit during the May 27-29, 2017 Magnetic storm<br />
*Boyi Wang (15 minutes), Ionospheric modulation by storm-time Pc5 ULF waves and wave structure detected by PFISR-THEMIS conjunctions<br />
*Lutz Rastaetter (15 minutes), Idealized ULF wave modeling challenge: high-resolution runs<br />
*Mark Engebretson (5 minutes), Nighttime magnetic perturbation events observed in Arctic Canada: Superposed epoch analysis<br />
*Jinxing Li (5 minutes), Electron microinjections in association with compressional ULF waves: MMS observations<br />
*Xiaojia Zhang (5 minutes), Spreading of Magnetopause-Generated Ultra-Low-Frequency Perturbations and the Associated Whistler Modulation <br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave research highlights'''<br />
These will be contributed talks with priority given to graduate students and postdocs. The rationale is that virtual GEM will not provide the same type of networking opportunities as in-person GEM, and we'd like to balance this somewhat by giving more opportunities to students/postdocs to present their work on ULF waves.<br />
<br />
All presentations are 10 minutes including discussion:<br />
*Rachel Rice, Characteristics of Kelvin-Helmholtz Waves as Observed by MMS<br />
*Dong Lin, Idealized ULF wave simulations with GAMERA-RCM model<br />
*Boyi Wang, The interaction between ions and the ULF waves driven by a foreshock transient<br />
*Jayashree Bulusu, Investigation of Pi2s during super quiet conditions from low and mid-latitudes<br />
*Changzhi Zhai, High-m Poloidal ULF Wave Signatures in GPS TEC Data<br />
*Simone Di Matteo, Power Spectral Density Background Estimate and Signal Detection via the Multitaper Method <br />
*Yixin Hao, Simultaneous observations of localized and global drift resonance<br />
*Mohammad Barani, Effects of realistic mode number structure on radial diffusion estimation<br />
<br />
== 2021 January Virtual Mini-GEM schedule ==<br />
UMEA will hold one session at the Virtual Mini-GEM Worskhop.<br />
<br />
'''Time''': 12:00-14:00 US Eastern Time, Friday, January 22, 2021<br />
<br />
'''ULF wave modeling challenge event, planning for 2021 GEM meeting, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge event, including an invited talk by Naoko Takahashi. The next part of the session will be for open discussion on potential 2021 GEM sessions. The final part of the session will be open for ULF wave research highlights. <br />
*Mike Hartinger, Brief Introduction to Challenge event<br />
*Naoko Takahashi, Relative contribution of ULF waves and whistler-mode chorus to the radiation belt variation during May 2017 storm<br />
*Ian Kelley, GPS TEC response during the ULF wave challenge event<br />
*Mike Hartinger, ULF wave geoelectric fields during the challenge event<br />
*All, Planning for 2021 GEM sessions<br />
*Bob Lysak, FLRs in Jupiter's magnetosphere<br />
*Toshi Nishimura, Upcoming conjunctions for ULF wave studies<br />
*Toshi Nishimura, PFISR and all-sky imager observations of Pc5 ULF waves during substorms<br />
*Francesco Lena, Detection of Hertz Frequency Multiharmonic Field Line Resonances at Low-L (L=1.1–1.5) During Van Allen Probe Perigee Passes<br />
<br />
== 2021 VGEM schedule ==<br />
UMEA will lead four sessions at the [https://gemworkshop.org/ 2021 Virtual GEM] workshop.<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''Recent Advances in ULF Wave Research'''<br />
This session will start with a short update on the ULF wave modeling challenge. The rest of the session will be for recent advances in ULF wave research, with priority given to presentations (1) with data or modeling results related to the challenge event (27-28 May 2017) or (2) discussions of ULF wave data-model comparisons.<br />
<br />
*Michelle Salzano, IPDP-Pi1B - modeling drift shell splitting<br />
*Aditi Upadhyay, Occurrence Characteristics of Electromagnetic Ion Cyclotron Waves at the Indian Antactrtic Station, Maitri<br />
*Yangyang Shen, Tens to hundreds of keV electron precipitation driven by kinetic Alfven waves during an electron injection<br />
*Chih-Ping Wang, Statistical results for Pi2 waves associated with the plasma sheet BBFs observed by THEMIS-RBSP pair with RBSP inside or outside the plasmasphere<br />
*Tom Elsden, Modelling the Varying Location of Field Line Resonances During Geomagnetic Storms<br />
*Denny Oliveira, Factors controlling shock-induced magnetospheric ULF waves<br />
*Short Oral Summaries of Posters<br />
*Open Discussion<br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''The Future of ULF Wave Research'''<br />
<br />
Hosted by Ayomide Olabode<br />
<br />
This session will begin with a review of the ULF wave FG’s original goals, research topics covered in the last 5 years and related activities, and unresolved questions and research objectives. The remainder of the session is open for 1-2 slide presentations on major unresolved questions in ULF wave research. We particularly encourage presentations (1) exploring topics that could be addressed by current/future GEM FG or decadal survey white paper, (2) highlighting major questions or obstacles preventing progress in ULF wave research (e.g., missing data in a critical region, missing theory/modeling component), (3) discuss how ULF wave researchers can best take advantage of future satellite missions, ground-based infrastructure, computing advances/big data/AI, and modeling/theory advances. <br />
<br />
*Mike Hartinger, Retrospective on the ULF wave focus group<br />
*Martin Archer, Surface Waves<br />
*Tom Elsden, 3D FLRs<br />
*Alexander Drozdov, Radial Diffusion<br />
*Ayomide Olabode and Michelle Salzano, Ground Magnetic Perturbations<br />
*Mark Engebretson, Pc1 waves / MMS k-vector technique<br />
*Xueling Shi, Applications of TEC observations<br />
*Open discussion, walk-in presentations welcome<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Tuesday, July 27, 2021<br />
<br />
'''ULF Wave M-I Coupling Processes'''<br />
This session is joint with the IEMIT FG. The session will begin with a review of the role of ULF waves on M-I coupling. The remainder of the session is open for 5-min presentations on ULF wave topics related to M-I coupling, e.g., auroral acceleration, particle precipitation, geomagnetic perturbations, GICs, etc. More questions and discussions will be left to the end.<br />
<br />
*Hui Zhang, Role of ULF waves in M-I coupling<br />
*Chaosong Huang, Global Pc5 pulsations<br />
*Tetsuo Motoba, Daytime Pc5 Diffuse Auroral Pulsations and Their Association With Outer Magnetospheric ULF Waves<br />
*Anton Artemyev, ULF driven precipitations as observed by ELFIN<br />
*Mark Engebretson, Magnetic perturbation events related to GICs<br />
*Denny Oliveira, IP shock impact angle control of local intense dB/dt variations during substorm<br />
*Xueling Shi, Sources of Intense Geoelectric Fields in the United States<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Friday, July 30, 2021<br />
<br />
'''Coupling Between ULF Waves and Cold Plasma'''<br />
<br />
Hosted by Rachel Rice<br />
<br />
This session is joint with the Cold Plasma FG. The session will begin with a review of mechanisms that couple cold plasma populations to ULF waves by Richard Denton. The remainder of the session is for contributed presentations describing (1) recent advances in our understanding of cold plasma interactions with ULF waves and (2) outstanding questions that could be discussed in future cold plasma FG sessions.<br />
<br />
*Richard Denton, Coupling Between ULF Waves and Cold Plasma<br />
*Alex Degeling, Modeling ULF Waves Trapped in a Plasmaspheric Density Plume <br />
*Eun Hwa Kim, Can Electromagnetic Ion Cyclotron Waves Propagate to the Ground?: 2D Full Wave Simulation<br />
*Bob Lysak, Relation of plasmaspheric cavity modes to Pi2 pulsations in an asymmetric plasmasphere<br />
*Yixin Hao, ULF wave-cold plasma interaction<br />
*Mike Hartinger, The relationship between global ULF wave properties and radial Alfven speed profile<br />
<br />
== 2021 Mini-GEM ==<br />
<br />
Recent findings in various areas of EMIC wave research<br />
<br />
Time: 5:30-7:00 CST, Sunday, December 12, 2021<br />
The session will take place in Hilton Garden Inn New Orleans Convention Center (1001 South Peters Street New Orleans, LA 70130), in Room Anzalea. <br />
<br />
Presentations:<br />
*Justin H. Lee, MMS measurements of cold and hot ion composition and EMIC waves<br />
*Kristine Sigsbee, Statistics of Electromagnetic Ion Cyclotron (EMIC) Rising Tones <br />
*Michael Hartinger, Short overview of open questions<br />
*Open discussion</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=FG:_ULF_Wave_Modeling,_Effects,_and_Applications&diff=6378FG: ULF Wave Modeling, Effects, and Applications2024-01-24T22:46:15Z<p>Mdhartin: </p>
<hr />
<div>''Focus Group Leaders:''<br />
* Michael Hartinger, Space Science Institute (mhartinger@spacescience.org)<br />
* Kazue Takahashi, Applied Physics Laboratory<br />
* Alexander Drozdov, UCLA<br />
* Maria Usanova, University of Colorado<br />
* Brian Kress, University of Colorado and NOAA-NCEI<br />
* Xueling Shi, Virginia Tech<br />
<br />
Focus Group term: 2016-2021<br />
<br />
== Science Questions ==<br />
Our group aims to address the following broad science questions: What mechanisms excite ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in Magnetosphere-Ionosphere coupling?<br />
<br />
== Focus Group Proposal ==<br />
[http://gem.epss.ucla.edu/mediawiki/FGproposals/Hartinger-UMEA.pdf ULF Wave Modeling, Effects, and Applications (UMEA)] (December 2015)<br />
<br />
== Focus Group Final Publications ==<br />
Review of Focus Group activities from 2016-2021: [https://www.frontiersin.org/articles/10.3389/fspas.2022.867394/full ULF Wave Modeling, Effects, and Applications: Accomplishments, Recent Advances, and Future]<br />
<br />
Summary of panel discussion during joint session with RB focus group at the 2021 GEM workshop: [https://agupubs.onlinelibrary.wiley.com/doi/10.1029/2022EA002216 Radial Transport Versus Local Acceleration: The Long-Standing Debate]<br />
<br />
== ULF wave modeling challenge ==<br />
<br />
One part of the ULF wave modeling challenge involves running several global MHD simulation codes with identical, idealized solar wind driving conditions (sinusoidal density variation), then comparing the resulting global ULF wave properties and discussing differences in the context of differing boundary conditions, grids, etc. More details can be found here: [http://ccmc.gsfc.nasa.gov/challenges/ULF/ ULF wave modeling challenge at CCMC]<br />
<br />
Another part of the ULF wave modeling challenge involves data-model comparisons during specific events. At the 2017 GEM and mini-GEM meetings several [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing challenge events] were proposed, including two [https://drive.google.com/open?id=1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI 2017 events].<br />
<br />
We have selected the [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing 27-28 May 2017 storm event] for the ULF wave modeling challenge due to favorable solar wind coverage and availability of numerous satellites (MMS, ARASE, THEMIS, RBSP, Cluster, GOES, ...) and ground-based observations for global context and multi-point wave observations. We will be continuously updating this [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing overview presentation] with observation and modeling results. Model output and observations for the challenge event - including global densities from the NURD model - can be obtained [https://drive.google.com/drive/folders/1Bk9vJtbEHd-vSuYqr3UG9NGCqaBn69hw?usp=sharing here]. If you would like to add additional observations/model output to the google drive or overview pdf, please contact the co-chairs.<br />
<br />
CCMC has run several global MHD simulation codes using the driving conditions of the ULF wave challenge event. At the 2019 GEM meeting and future GEM/mini-GEM meetings, we plan data-model comparisons to identify where model/data don't agree and discuss these differences in the context of incorrect boundary conditions (e.g., compare model ionosphere to local PFISR-derived conductivities), missing physics, numerical dissipation, etc. Please contact CCMC/Lutz Rastaetter and model developers before using this simulation output in publications:<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_SWMF_040319_1 Space Weather Modeling Framework simulation], IMF Bx=0 (other parameters as in event). Full 2-day event, 3D output every 15s, virtual ground magnetometer. If you haven't used CCMC visualization tools before, be aware that you shouldn’t submit multiple visualization requests at the same time, as this could crash CCMC server for these large 3D files. Instead, request a batch process or wait for the first visualization request to complete. The easiest/fastest visualization is to follow the link above and scroll down until you see the virtual ground magnetometer and satellites list. Click on the magnetometer/satellite of interest, then select which parameter(s) to display/download. <br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_1 OpenGGCM run 1] – IMF Bx = -7 nT. Smaller time range available on 28 May 0400-1000, only virtual ground magnetometer from POKR/CMO available now. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_1 Full results including virtual satellite.]<br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_2 Open GGCM run 2] – IMF Bx = 0 nT (as in SWMF simulation). Same format as other OpenGGCM simulation. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_2 Full results including virtual satellite.]<br />
<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_LFM_051519_2 LFM simulation]<br />
<br />
== ULF wave HGSO event coordination ==<br />
Our group is helping coordinate analysis of conjunction events for ULF wave studies, including requesting instrument operation modes favorable for ULF wave analysis.<br />
<br />
The [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] 0400-0800 UT conjunction event includes several satellites (THEMIS, Cluster, Van Allen Probes, GOES, Geotail, FIREBIRD, METOP, POES, DMSP) in the pre-midnight sector during a conjunction with the Poker Flat Incoherent Scatter Radar and several SuperDARN radars. PFISR was operating throughout the conjunction, several SuperDARN radars were in high resolution sampling modes, and several satellites were operating in fast survey/burst mode. The conjunction is favorable for modeling and observation studies of magnetosphere-ionosphere coupling via ULF waves, wave-particle interactions, global ULF wave properties, and many other topics. [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing This pdf] summarizes preliminary results<br />
<br />
Several web-based tools are available for identifying future conjunctions, including [https://ergsc.isee.nagoya-u.ac.jp/analysis/index.shtml.en upcoming conjunctions between ARASE and Van Allen Probes/ground] and conjunctions between [https://swarm-aurora.com/conjunctionFinder/ SWARM/all-sky cameras].<br />
<br />
'''There are also many specialized, web-based tools for ULF wave analysis (please contact FG co-chairs to add to this list):'''<br />
<br />
*SuperMAG ground-based magnetometer [http://supermag.jhuapl.edu/rBrowse/?start=2001-01-30T05%3A00%3A00.000Z&step=14400 global ULF wave plots]<br />
<br />
*CARISMA ground-based magnetometer [http://www.carisma.ca/carisma-data/fgm-pc1-power-spectra Pc1 power spectra] and [http://www.carisma.ca/carisma-data/fgm-pc5-power-spectra Pc5 power spectra]<br />
<br />
*Augsburg College/UNH Arctic and Antarctic [http://space.augsburg.edu/searchcoil/index.html search coil magnetometer survey plots] <br />
<br />
*Augsburg College (hosted by ViRBO) [http://virbo.org/Augsburg/ULF ULF wave index]<br />
<br />
*[http://vt.superdarn.org/tiki-index.php?page=DaViT+DynFFT SuperDARN wave analysis] and [http://vt.superdarn.org/tiki-index.php?page=Data+Inventory identification of high time-resolution SuperDARN beams]<br />
<br />
*THEMIS satellite fluxgate magnetometer [http://themis.ssl.berkeley.edu/summary.php?year=2014&month=05&day=11&hour=0024&sumType=thmfgmdyn&type=themislinfgl wave survey plots]<br />
<br />
*National Institute of Polar Research inter-hemispheric comparisons of Syowa/Iceland [http://iugonet0.nipr.ac.jp/web/induction/ induction magnetometer spectra]<br />
<br />
*[http://mist.nianet.org/Satellite_Conjunctions/ Inter-hemispheric comparisons] during satellite conjunctions with Arctic(DTU Space)/Antarctic(Virginia Tech) magnetometers<br />
<br />
*[http://kho.unis.no/uaf_msp.htm Meridian Scanning Photometer plots] from [http://kho.unis.no/ UNIS/Kjell Henriksen Observatory], for context on open-closed boundary and ULF modulation of the aurora<br />
<br />
== Summary Reports for GEM workshops ==<br />
[https://drive.google.com/file/d/1QLH8FcKm3-f25aLwoetOuYJGZu5sPgN3/view?usp=sharing 2016 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1SRIv6Gn-NNnqGPHGvjvZQcdDml2GQpv_/view?usp=sharing 2017 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1clzFHWrxC9hvYf9kECJx4bPn9xn8WwsG/view?usp=sharing 2018 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1_fLwZFCLBTBHnq8HkaFPWUvaIY81E-t0/view?usp=sharing 2019 UMEA FG report]<br />
<br />
== 2016 Mini-GEM schedule ==<br />
UMEA will hold one session at the [http://www.cpe.vt.edu/gem-mini/ mini-GEM workshop]: ULF wave modeling, effects and applications updates<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 11, 2016<br />
<br />
'''Location''': Oregon Room, Holiday Inn Golden Gateway<br />
<br />
'''Schedule:'''<br />
<br />
'''First Half (12:00 – 12:45): 3 talks (~15 min each):'''<br />
<br />
*1. Mike Hartinger -- Overview of UMEA current activities, discussion of future plans<br />
<br />
*2. Lutz Rastaetter -- ULF wave modeling challenge at CCMC<br />
<br />
*3. Robert Rankin -- Modeling the global properties and ground-based signatures of ULF waves and wave-particle interactions<br />
<br />
'''Second Half (12:45 – 13:30): (5 minutes each, 1-2 slides, order of talks may change):'''<br />
<br />
*1. Xueling Shi -- SuperDARN THEMIS Mode Data Tracker & ULF Wave Detection<br />
<br />
*2. Richard Denton -- Mass density inferred from Alfven wave frequencies measured by RBSP<br />
<br />
*3. Lars Daldorff -- ULF waves, particle transport and energization in global MHD simulations with plasmasphere<br />
<br />
*4. Alexander Drozdov -- Dependence of radiation belt simulations to assumed radial diffusion rates tested for two empirical models of radial transport<br />
<br />
*5. Bob Lysak -- Quarter Wavelength Modes<br />
<br />
*6. Walk-ins<br />
<br />
== 2017 GEM meeting schedule ==<br />
UMEA will hold four sessions session at the 2017 GEM meeting<br />
<br />
'''UMEA Update and plans, general discussion of ULF wave modeling and observations''': 10:30-12:15, Monday, June 19, Port VI-VIII<br />
<br />
*1. Michael Hartinger -- UMEA update<br />
<br />
*2. Toshi Nishimura -- PFISR measurements during the 2 May 2017 HGSO event<br />
<br />
*3. Xueling Shi -- A Survey of Ionospheric ULF Wave Signatures in SuperDARN Data: Occurrence Statistics and Driving Mechanisms<br />
<br />
*4. Tetsuo Motoba -- Dayside Auroral Pulsations<br />
<br />
*5. Brian Kress and Rob Redmon -- Newly Available GOES 8-16 Particle and Magnetic Field Measurements<br />
<br />
*6. Dick Wolf -- Theory of magnetospheric buoyancy waves<br />
<br />
<br />
'''ULF wave interactions with the radiation belt and ring current populations''': 1:30-3:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Rualdo Soto-Chavez -- Generation of Pc5-ULF wave by the drift-mirror instability<br />
<br />
*2. Zhiyang Xia -- Eigenmode analysis of compressional poloidal modes in a self-consistent magnetic field<br />
<br />
*3. Mark Engebretson -- Statistical study of the upper frequency cutoff of helium band EMIC waves observed by the Van Allen Probes<br />
<br />
*4. Alexander Drozdov -- Radial diffusion and EMIC waves in the long-term simulation and in the case study<br />
<br />
*5. Seth Claudepierre -- Global MHD simulations driven by idealized Alfvenic fluctuations in the solar wind<br />
<br />
*6. Michael Hartinger -- Radiation belt response to large scale, monochromatic ULF waves: LANL-GEO observations<br />
<br />
<br />
'''ULF wave modeling, including CCMC modeling challenge, Joint with MMV''': 3:30-5:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Lutz Rastaetter -- CCMC ULF wave modeling challenge update and challenge events<br />
<br />
*2. Scot Elkington -- ULF wave activity and diffusion coefficients during QARBM challenge events, Ashar F. Ali’s write-up on Event-Specific Radial Diffusion Coefficients Derived Using RBSP EMFISIS and EFW Data<br />
<br />
*3. Katariina Nykyri -- KHI challenge events<br />
<br />
*4. All -- Open Discussion of Challenge Events<br />
<br />
*5. Doga Ozturk -- Effects of Increased Solar Wind Dynamic Pressure on the Coupled M-I system under different IMF By<br />
<br />
*6. Kazue Takahashi -- Cavity mode Van Allen Probe observations<br />
<br />
*7. Bob Lysak -- Cavity mode models<br />
<br />
*8. Tom Elsden -- The Theoretical Foundation of 3D Alfven Resonances: Time Dependent Solutions<br />
<br />
<br />
'''Magnetosphere-Ionosphere coupling processes associated with localized disturbances caused by dayside kinetic phenomena: Joint with “Dayside Kinetic Processes…” and “Testing proposed links…”''': 3:30-5:00, Tuesday, June 20, Port VI-VIII<br />
<br />
*1. Peter Chi -- Magnetospheric and ionospheric responses to a localized disturbance: The macroscopic view<br />
<br />
*2. Hui Zhang -- Magnetospheric ULF waves generated by foreshock transients<br />
<br />
*3. Hui Zhang -- Modeling challenges in simulating HFA geoeffects<br />
<br />
*4. Boyi Wang -- Optical signatures of dayside ULF waves during magnetosheath high-speed jets<br />
<br />
*5. Katariina Nykyri -- The effect of magnetosheath seed spectrum on KH evolution and associated mass transport<br />
<br />
*6. Kyle Murphy -- A statistical study of discrete ULF wave power observed by GOES<br />
<br />
== 2017 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2017 mini-GEM] workshop<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 10, 2017, Canal/50<br />
<br />
'''ULF wave modeling challenges'''<br />
Discussion of final plans for the CCMC ULF wave modeling challenge with idealized drivers, as well as open discussion of new challenges involving data-model and model-model comparisons during specific events. Please come with 1-2 slides showing examples of such comparisons, ideas for improving ULF wave models, and/or ideas for specific modeling challenges/sessions relevant to the FG science questions.<br />
<br />
*1. 12:00-12:30 Overview of CCMC ULF wave modeling challenge with idealized driving conditions, description of challenge events and targets proposed during 2017 GEM meeting and November modeling telecon (Michael Hartinger, Lutz Rastaetter)<br />
*2. 12:30-13:30 Open discussion of challenge events and targets (Allison Jaynes, Robert Rankin), select challenge event to be analyzed at 2018 GEM<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 10, 2017, Canal/50<br />
<br />
'''Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
Discussion of HGSO coordination for ULF wave studies. This includes updates on the 2 May 2017 conjunction event followed by an open discussion of conjunctions and datasets that are particularly useful for ULF wave studies, including upcoming RBSP-ERG-ground conjunctions. Please come with 1-2 slides showing examples of datasets and past/upcoming conjunctions ideal for addressing the FG science questions: What excites ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in MI coupling? We welcome discussion from both modelers and observers of the types of conjunctions and observations that are most needed to address these questions.<br />
<br />
*1. 13:50-14:20 Recently available datasets and conjunctions for ULF wave studies (Chih-Ping Wang, Xueling Shi, Sana Qamar, Rob Redmon)<br />
*2. 14:20-14:35 Updates on 2 May 2017 conjunction event (Toshi Nishimura, Michael Hartinger)<br />
*3. 14:35-15:20 Upcoming ARASE-RBSP conjunctions (Yoshi Miyoshi), Open Discussion of HGSO coordination for ULF wave studies (Toshi Nishimura, Kazue Takahashi)<br />
<br />
== 2018 GEM meeting schedule ==<br />
UMEA will hold four sessions at the 2018 GEM meeting. <br />
<br />
'''ULF waves during particle injections and dipolarizations, joint with Dipolarization and Substorm FG''': 10:30-12:00, Monday, June 18<br />
<br />
*1. Discussion of Session Topic<br />
<br />
*2. Bob Lysak -- Ionospheric Conductivity Effects on Pi2 Pulsations<br />
<br />
*3. Mike Hartinger -- Pi2 waves during an extended period with stable plasmapause location and variable geomagnetic activity<br />
<br />
*4. Toshi Nishimura -- Ionosphere observations of Pc5 ULF waves during 2018 HGSO conjunctions<br />
<br />
*5. Xueling Shi -- Long-lasting poloidal ULF waves observed by multiple satellite and SuperDARN HF radars<br />
<br />
*6. Jian Yang -- New RCM-I simulation results for buoyancy waves<br />
<br />
*7. Dick Wolf -- Theory of Buoyancy Waves<br />
<br />
*8. Yan Song -- What Causes the Substorm Expansion Phase and Associated ULF Waves?<br />
<br />
<br />
'''Recent advances in ULF wave research''': 1:30-3:00, Monday, June 18 <br />
<br />
*1. Overview of focus group goals and recent progress<br />
<br />
*2. Brief ULF wave poster overviews (Tuesday posters)<br />
<br />
*3. Kazue Takahashi -- Observation of nightside ULF waves by RBSP and Arase<br />
<br />
*4. Tom Elsden -- Broadband Excitation of 3D Alfven Resonances (FLRs) in an MHD Waveguide<br />
<br />
*5. Boyi Wang -- 2-D structure of foreshock driven Pc5 ULF waves observed by the THEMIS satellites and South Pole imager<br />
<br />
*6. Xiaochen Shen -- Foreshock transient-driven ultra-low frequency (ULF) waves with dawn-dusk asymmetry of wave power<br />
<br />
*7. Chih-Ping Wang -- ULF waves possibly driven by tailward propagation of foreshock perturbations<br />
<br />
*8. Allison Jaynes -- Fast diffusion of ultra-relativistic electrons in the outer radiation belt: 17 March 2015 storm event<br />
<br />
*9. Rualdo Soto -- The Drift-Mirror instability in Earth's inner magnetosphere<br />
<br />
*10. Martin Archer/Mike Hartinger -- Results from Sonification and Citizen Science of Magnetospheric ULF waves<br />
<br />
<br />
'''EMIC wave generation, propagation, and interactions''': 3:30-5:00, Monday, June 18 (discussion leaders: Alexander Drozdov and Maria Usanova)<br />
Session Summary<br />
<br />
*1. Dedong Wang -- EMIC wave observations from Van Allen Probes and MMS<br />
<br />
*2. Mark Engebretson -- Van Allen Probes, and ground based magnetometer observations of EMIC waves associated with a modest interplanetary shock<br />
<br />
*3. Maria Usanova -- MMS Observations of Harmonic Electromagnetic Cyclotron Waves<br />
<br />
*4. Naritoshi Kitamura -- Direct measurements of energy transfer from hot H+ to EMIC waves by MMS<br />
<br />
*5. Bruce Fritz -- ELF Whistler Dependence on a Sunlit Ionosphere<br />
<br />
*6. Chae-Woo Jun -- EMIC waves associated with/without the injection inside/outside the plasmapause<br />
<br />
*7. Hyomin Kim -- Injection-associated EMIC waves<br />
<br />
*8. Sebastian Cervantes -- EMIC wave parameterization in radiation belt reanalysis<br />
<br />
*9. Maria Usanova -- Long-term correlation of EMIC wave activity and radiation belt flux variations<br />
<br />
*10. Alexander Drozdov -- The effects due to the EMIC waves in the VERB code modeling<br />
<br />
<br />
'''ULF wave modeling challenge, joint with MMV FG''': 3:30-5:00, Wednesday, June 20<br />
<br />
*1. Brief ULF wave poster overviews (Thursday posters)<br />
<br />
*2. Mike Hartinger: ULF wave modeling challenge event overview, discussion of challenge targets (continuing during session)<br />
<br />
*3. Mariko Teramoto: ARASE ULF wave observations during challenge event<br />
<br />
*4. Sam Califf: GOES-14 and 16 observations during the ULF wave challenge event, Data Discussion<br />
<br />
*5. Toshi Nishimura: PFISR measurements of the 27-28 May 2017 ULF waves<br />
<br />
*6. Dogacan Su Ozturk: The modeling study of the 27 March 2017 Event <br />
<br />
*7. Xiaochen Shen: GEM Challenge Event: ULF wave-related electron and proton precipitation/negative dynamic pressure pulse driven EMIC wave<br />
<br />
*8. Tetsuo Motoba: Auroral measurements of the 27-28 May 2017 ULF waves<br />
<br />
*9. Others discuss when their figures/summary plots in event overview pdf are presented…<br />
<br />
== 2018 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2018 mini-GEM] workshop<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF modulation of the aurora, Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
This session focuses on understanding a variety of mechanisms responsible for ULF modulations of the aurora. Eric Donovan will give a 30 minute invited presentation, with the rest of the session open for presentations and discussion on this topic. We welcome discussion of ULF aurora generation mechanisms and the types of conjunctions, observations, and models needed to understand the zoo of ULF auroral modulations. We also welcome discussion of upcoming observation campaigns/satellite conjunctions that would be particularly useful for ULF wave studies.<br />
<br />
*1. Eric Donovan<br />
*2. Tetsuo Motoba<br />
*3. Slava Pilipenko<br />
*4. Boyi Wang / Toshi Nishimura<br />
*5. Open discussion<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF wave modeling challenge and research highlights'''<br />
The first part of the session is for updates on the idealized ULF wave modeling challenge and potential 2019 GEM sessions. The next part of the session is for observation/model presentations relevant to the 27-28 May 2017 ULF wave challenge event and final selection of the modeling challenge targets – all types of models and observations welcome. The last part of the session will be open for 1 slide ULF wave modeling and observation research highlights. <br />
<br />
*1. [https://drive.google.com/file/d/1vqxxn3gYXfzDKABe9yRwMgR8vbKRua_j/view?usp=sharing 2019 GEM session ideas] (Mike Hartinger)<br />
*2. Idealized Modeling Challenge (Lutz Rastaetter)<br />
*3. ULF wave modeling challenge event updates: Rob Redmon/Sam Califf/Mike Hartinger (GOES magnetometer observations), Yoshi Miyoshi (Arase magnetic field observations), [https://drive.google.com/file/d/1B6DGHvAzUhBG79eUJWPsUD2BSjGhQrrw/view?usp=sharing Hyomin Kim (wave-particle interaction)], [https://drive.google.com/file/d/180iaBGrbCPf1rYy6uVZn8OsLTOFREqsD/view?usp=sharing Dong Lin (LFM simulations)]<br />
*4. General ULF wave modeling: [https://drive.google.com/file/d/10gUKitjDPnbV_g9r9CAHDFeE365wUQQd/view?usp=sharing Yaireska Collado-Vega (vortex identification/surface waves)], [https://drive.google.com/file/d/1kkGlYKoYHr7XZf5nT3kaXITUD3tpNynJ/view?usp=sharing Alex Degeling (ULF wave radiation belt interactions)] <br />
*5. Research highlights (1-slide): Rualdo Soto (Van Allen Probes and Cluster satellites’ observations of Pc 5 (mHz) magnetic pulsations), [https://drive.google.com/file/d/1V_Joz3psBQbCBoVKRYaOKdKIEoZ72WgQ/view?usp=sharing Xueling Shi (SuperDARN ULF waves)], Martin Archer (magnetopause surface eigenmodes), [https://drive.google.com/file/d/1Mmi3VfERKswG3dpYidVUgOQra2UG-9s2/view?usp=sharing Martin Archer (sonification)]<br />
<br />
== 2019 GEM meeting schedule ==<br />
<br />
UMEA will hold [https://drive.google.com/file/d/1KmH9XqxrisGH_g4s0ny7QDkutmv7tKlr/view?usp=sharing six sessions] at the 2019 GEM meeting, four joint with other focus groups. <br />
<br />
'''Recent advances in ULF wave research: Modeling''': 3:30-5:00, Monday, June 24 New Mexico room, joint with MMV. <br />
Discussion of advances in ULF wave research, with focus on modeling and modeling challenges (e.g., boundary conditions, grid resolution, missing physics). This includes models of the effects of ULF waves on inner magnetosphere dynamics and wave-particle interactions. We particularly encourage presentations focused on the ULF wave modeling challenge, including data-model comparisons for the 27-28 May 2017 challenge event.<br />
*Mike Hartinger, [https://drive.google.com/open?id=1Drkq9epsQWY4AjpV1EF-8Ci_kaKyN2jk FG updates]<br />
*Jesper Gjerloev, SuperMAG ULF updates<br />
*Tetsuo Motoba, High-time resolution SuperMAG ULF data products<br />
*Lutz Rastaetter, ULF wave modeling challenge<br />
*Maulik Patel, MHD test particle simulations of the 16 July 2017 shock compression of the dayside magnetopause <br />
*Bob McPherron, Pi 2 pulsations during the storm of May 27-29 2017, The Statistics of Pi 2 Pulsation Occurrence during a Major Magnetic Storm<br />
*Dong Lin, LFM simulations of surface waves during challenge event<br />
<br />
'''The ULF response to dayside transients with different temporal/spatial scales''': 10:30-12:00, Wednesday, June 26 Santa Fe room, discussion leader: Tom Elsden, joint with Dayside Kinetics and IHMIC. <br />
Dayside transient phenomena associated with kinetic scale processes cause a variety of ULF wave behaviour in the magnetosphere and further, contribute to significant magnetospheric asymmetries. The aim of this session is to bring together the expertise of the three focus groups listed above, to answer outstanding questions at the overlap of these disciplines. It is hoped that such a discussion should prove fruitful enough to generate a JGR commentary paper in this area. With this in mind, speakers in this session are encouraged to give their views as to the current state of the subject area, and how outstanding problems may be addressed in the future.<br />
* Tom Elsden - Session introduction and goals<br />
* Ferdinand Plaschke (invited) - An overview of dayside transients causing ULF waves<br />
* Tom Elsden - 3D ULF wave modeling with MHD<br />
* Boyi Wang - The role of magnetosheath high-speed jets in triggering magnetospheric Pc5 ULF waves<br />
* Bob Lysak - Ionospheric asymmetries and quarter-wave modes<br />
* Xueling Shi - Conjugate Observations of ULF Waves during an Extended Period of Radial IMF<br />
* Michael Hartinger - Localized magnetopause surface wave activity and [https://drive.google.com/open?id=1d8lDB-FPGa6VErL37aZz3xZSgpNvxbk0 modeling challenges]<br />
* Discussion<br />
<br />
'''ULF wave modeling challenges associated with Magnetosphere-Ionosphere-Thermosphere Coupling''': 3:30-5:00, Wednesday, June 26 Lumpkins Ballroon South, joint with IEMIT, discussion leader Doga Ozturk. <br />
ULF waves play important roles in M-I-T coupling, driving current systems that can lead to I-T system heating and geomagnetically induced currents. This session aims to bring together researchers from the ULF wave and M-I-T coupling research communities to discuss challenges associated with realistically modeling M-I-T coupling processes associated with these waves. The session will begin with a discussion of the ULF wave challenge event; comparisons between modeled / observed (PFISR) conductivities and modeled/observed ULF wave properties will be presented, and the community will be invited to discuss explanations for model/observation differences. The rest of the session is open for short presentations on ULF wave modeling challenges related to M-I-T coupling, including topics such as specifying conductivity and effect of conductivity on wave properties, effect of ionospheric boundary conditions in global simulations, boundary conditions and feedback between magnetosphere and ionosphere, capturing role of waves in ionospheric-thermospheric heating.<br />
# (Invited) Boyi Wang: Ionospheric modulation by Pc5 ULF waves and wave structure detected by PFISR<br />
# (Invited) Xiaojia Zhang / Anton Artemyev: ULF modulation of VLF waves and precipitation<br />
# Doga Ozturk: Update from GEM/CEDAR joint session, [https://drive.google.com/open?id=1WsSf4PFHiBo_iZ3za-bhUWKHFJd4MNQX ULF Wave activity and Meso-Scale electric field variability at high-latitude I-T system]<br />
# Anatoly Streltsov: ULF waves generated by the MI interactions near the plasmapause<br />
# Mergen Alimaganbetov: ULF waves observed in space and on the ground at high and low latitudes<br />
# Mark Engebretson: [https://drive.google.com/open?id=16WbDl3rnuehoifUqFj4oMw_Tn5WhEFlU Multi-Instrument Observations of Nighttime Impulsive Magnetic Events]<br />
# Bob Lysak: Modeling ionospheric conductance and ground magnetic fields<br />
# Yan Song: ULF wave, M-I coupling and Auroral formation.<br />
<br />
[https://drive.google.com/open?id=1wGpZPk086Zs54uWGtYiRjByPmVCFnsSv '''EMIC waves''']: 10:30-12:00, Thursday, June 27 New Mexico room, joint with Radiation Belt. <br />
The generation mechanisms of Electromagnetic Ion Cyclotron (EMIC) waves, their effects on energetic electrons and ions, and their propagation through the magnetosphere-ionosphere system are challenging topics that involve multiple GEM research areas. Despite several years of observations and improved global wave statistics, there are many unresolved questions that limit further investigation, modeling and prediction of dynamical processes in the inner magnetosphere involving EMIC waves. Hence, we invite short presentations that discuss recent findings in different areas of EMIC wave research and identify observations/models most needed to address unresolved questions.<br />
*Robert Allen, Outer magnetospheric EMIC wave source regions characterized by Cluster<br />
*Sarah Vines, EMIC waves in the outer magnetosphere: Observations of an off-equator source region<br />
*Justin Lee, [https://drive.google.com/open?id=1xlJfppvWgOC_JHy6QgPpptcI3GjkYuLC EMIC wave observations by MMS] <br />
*Chao Yue, The relationship between EMIC wave properties and proton distributions based on Van Allen Probes observations<br />
*Kristine Sigsbee, Simultaneous EMIC Wave Observations During a Van Allen Probes Conjunction<br />
*Hyomin Kim, [https://drive.google.com/open?id=1UmmYHxyIcH2FfQmRnffGNnCUNjH8S5qQ Observations of Particle Loss due to Injection-Associated EMIC Waves]<br />
*Yuri Shprits, Dips in PSD and how they are related to EMIC wave scattering<br />
*Richard Denton, Electromagnetic ion cyclotron waves in the dipole magnetosphere and pitch angle scattering of sub-MeV relativistic electrons by those waves<br />
*Qianli Ma, Pitch angle scattering of radiation belt electrons due to statistical EMIC wave spectra <br />
<br />
'''Recent advances in ULF wave research: Observations and HGSO coordination for ULF wave studies''': 1:30-3:00, Thursday, June 27 New Mexico room. <br />
Discussion of recent advances in ULF wave research, with focus on observations and a general discussion of Heliophysics/Geospace System Observatory coordination for ULF wave studies. We particularly encourage presentations describing (1) past or upcoming satellite conjunctions, (2) new data analysis tools, and/or (3) instrumentation/operation modes of interest to the ULF wave research community.<br />
*Seth Claudepierre/Matina Gkioulidou (invited), [https://drive.google.com/open?id=1bjENFjvkWSjLYA_EfFuTxhCyKtVlk7c1 Van Allen Probes: End of Mission and ULF wave studies]<br />
*Tetsuo Motoba, SuperMAG ULF wave tools<br />
*Sarah Vines, Determining EMIC wave vector properties through multi-point measurements: The wave curl analysis<br />
*Aaron Breneman, [https://drive.google.com/open?id=1NHlf9I_VV6vkx9id_NL4gE6YhEsSRxkG BARREL precipitation during solar wind driven ULF wave events] <br />
*Anatoly Streltsov, Effect of the Hall conductivity on generation of ULF waves<br />
*Mohammad Barani, [https://drive.google.com/open?id=1sCMVi0pbWsggpUUnotdl-4LO_hfGGFEc Estimating the Azimuthal Mode Structure of ULF Waves Based on Multiple GOES Satellite Observations]<br />
*Kazue Takahashi, L versus time structures of ground magnetic pulsations<br />
*Chih-Ping Wang, Earthward propagation of Pi2 waves<br />
<br />
'''ULF waves driven by wave-particle interactions and instabilities''': 3:30-5:00, Thursday, June 27 Lumpkins Ballroon South, discussion leaders: Xueling Shi and Hyomin Kim. <br />
Many ULF wave modes are closely related to instabilities and wave-particle interactions inside the magnetosphere: poloidal mode waves associated with particle injections, mirror/drift-mirror modes, buoyancy waves… These waves are often discussed in different contexts and in different GEM sessions. In addition, there have been relatively few studies of modeling internally generated ULF waves. The purpose of this session is to bring together modelers and observers to discuss the underlying processes that drive/damp these waves, their impact(s) on the M-I system (ring current, radiation belt, ionosphere,…), and the models/observations needed to better understand wave dynamics.<br />
*Xuzhi Zhou (invited), Acceleration of relativistic electrons by global-scale ULF waves<br />
*Tomotsugu Yamakawa (invited), [https://drive.google.com/open?id=1PEsq7oWVeXwwXn3JvE5ZvWQIIjfXwKRB Simulation of the excitation of storm-time Pc5 ULF waves by ring current ions based on the drift-kinetic model]<br />
*Frank Toffoletto, Normal Mode Analysis of Buoyancy Waves <br />
*Peter Chi, Observations of High-m Poloidal Waves along Magnetospheric Field Lines<br />
*Mike Hartinger, [https://drive.google.com/open?id=17do2Jxy01SJPmOloBxzTPID9ZzqaPGZI Observations of wave-particle interactions using MagEIS ultra-high resolution energy channels]<br />
*Jiang Liu, Ultralow Frequency Waves Deep Inside the Inner Magnetosphere Driven by Dipolarizing Flux Bundles, and their interaction with electrons<br />
*Kyle Murphy, TBD<br />
<br />
== 2019 Mini-GEM schedule ==<br />
UMEA will hold one session at the [https://gemworkshop.org/ 2019 mini-GEM] workshop<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 8, 2019, Nevada Room<br />
<br />
'''ULF wave modeling challenge event, HGSO coordination, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge and potential 2020 GEM sessions. The next part of the session is open for ULF wave research presentations discussing the ULF wave modeling challenge event or current/upcoming observation campaigns that are particularly useful for ULF wave studies. The last part of the session will be open for 1 slide ULF wave research highlights.<br />
<br />
*Mike Hartinger, [https://drive.google.com/open?id=1eQQc07g7nCTEGNwaTGesQx4ymIU6m815 UMEA updates and proposed sessions for 2020 GEM workshop]<br />
*Dong Lin, [https://drive.google.com/open?id=1SqiD1u69eyKNzLyrtvTWbMK05L5OrkrO LFM Simulations of ULF wave modeling challenge event]<br />
*Mohammad Barani, [https://drive.google.com/open?id=1fQAossqjQ-aBuGIBhDIW6I0_WEtHdQsF High-fidelity ULF wave azimuthal mode number structure estimation using MMS magnetometer observations], [https://www.youtube.com/watch?reload=9&v=W5Vya8pCjNE&t=1s link to related presentation on YouTube]<br />
*Chih-Ping Wang, [https://drive.google.com/open?id=19ugyLwyIp4YRuLpDuzT330IdbbFppQcr Inward propagation of Pi2 wave from plasma sheet to inner magnetosphere: THEMIS-GOES conjunctions]<br />
*Walk-ins<br />
<br />
== 2020 VGEM schedule ==<br />
UMEA will hold two sessions at the [https://gemworkshop.org/ 2020 Virtual GEM] workshop<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave modeling challenge event'''<br />
(Hosted by Xueling Shi)<br />
The first part of the session is for updates on research related to the challenge event (27-29 May 2017 storm): All modeling and observation talks welcome as long as they're related to this event. The last part of the session will be for short research highlights and oral summaries of posters.<br />
<br />
*Mike Hartinger (10 minutes), [https://drive.google.com/file/d/1Z5-g7-f-iKfpuWD03WVkA3Q2Rb9mbQfe/view?usp=sharing 2020 UMEA updates and overview of challenge event] <br />
*Simone Di Matteo (15 minutes), [https://drive.google.com/file/d/1acsSyIszg95muYurOkn0RmW0btblS3Ja/view?usp=sharing On some features characterizing the plasmasphere–magnetosphere–ionosphere system during the geomagnetic storm of 27 May 2017] <br />
*Bob McPherron (15 minutes), [https://drive.google.com/file/d/1pnqs49KamZF2BLgMdaoOroktmkBNnj1c/view?usp=sharing ULF wave activity at synchronous orbit during the May 27-29, 2017 Magnetic storm]<br />
*Boyi Wang (15 minutes), Ionospheric modulation by storm-time Pc5 ULF waves and wave structure detected by PFISR-THEMIS conjunctions<br />
*Lutz Rastaetter (15 minutes), [https://drive.google.com/file/d/1H9nTOrpQHX0NEau1eSktWjWM0KYbyfnM/view?usp=sharing Idealized ULF wave modeling challenge: high-resolution runs] <br />
*Mark Engebretson (5 minutes), [https://drive.google.com/file/d/1kvWyYe52OkTB7uUmKWRDSO305Jina-Yy/view?usp=sharing Nighttime magnetic perturbation events observed in Arctic Canada: Superposed epoch analysis]<br />
*Jinxing Li (5 minutes), Electron microinjections in association with compressional ULF waves: MMS observations<br />
*Xiaojia Zhang (5 minutes), [https://drive.google.com/file/d/1fKwf0t1ohDZIxF5NPtsgGKNP0cBEqECn/view?usp=sharing Spreading of Magnetopause-Generated Ultra-Low-Frequency Perturbations and the Associated Whistler Modulation] <br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave research highlights'''<br />
These will be contributed talks with priority given to graduate students and postdocs. The rationale is that virtual GEM will not provide the same type of networking opportunities as in-person GEM, and we'd like to balance this somewhat by giving more opportunities to students/postdocs to present their work on ULF waves.<br />
<br />
All presentations are 10 minutes including discussion:<br />
*Rachel Rice, Characteristics of Kelvin-Helmholtz Waves as Observed by MMS<br />
*Dong Lin, Idealized ULF wave simulations with GAMERA-RCM model<br />
*Boyi Wang, The interaction between ions and the ULF waves driven by a foreshock transient<br />
*Jayashree Bulusu, [https://drive.google.com/file/d/1YyRAo0I7Cf4-buxhTBXLxYaTWw7GX6SZ/view?usp=sharing Investigation of Pi2s during super quiet conditions from low and mid-latitudes]<br />
*Changzhi Zhai, High-m Poloidal ULF Wave Signatures in GPS TEC Data<br />
*Simone Di Matteo, [https://drive.google.com/file/d/1yYaidiu7O4a0Z8PeQXELiyatB03hJQyX/view?usp=sharing Power Spectral Density Background Estimate and Signal Detection via the Multitaper Method] <br />
*Yixin Hao, [https://drive.google.com/file/d/1iIf5QpLE9t7IThiIPNwhCoRHrbFDoR8R/view?usp=sharing Simultaneous observations of localized and global drift resonance]<br />
*Mohammad Barani, [https://drive.google.com/file/d/1it2y8JXJzrbjmt56MWia7ffbei63gIwC/view?usp=sharing Effects of realistic mode number structure on radial diffusion estimation]<br />
<br />
== 2021 January Virtual Mini-GEM schedule ==<br />
UMEA will hold one session at the Virtual Mini-GEM Worskhop.<br />
<br />
'''Time''': 12:00-14:00 US Eastern Time, Friday, January 22, 2021<br />
<br />
'''ULF wave modeling challenge event, planning for 2021 GEM meeting, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge event, including an invited talk by Naoko Takahashi. The next part of the session will be for open discussion on potential 2021 GEM sessions. The final part of the session will be open for ULF wave research highlights. <br />
*Mike Hartinger, Brief Introduction to Challenge event<br />
*Naoko Takahashi, Relative contribution of ULF waves and whistler-mode chorus to the radiation belt variation during May 2017 storm<br />
*Ian Kelley, GPS TEC response during the ULF wave challenge event<br />
*Mike Hartinger, ULF wave geoelectric fields during the challenge event<br />
*All, Planning for 2021 GEM sessions<br />
*Bob Lysak, FLRs in Jupiter's magnetosphere<br />
*Toshi Nishimura, Upcoming conjunctions for ULF wave studies<br />
*Toshi Nishimura, PFISR and all-sky imager observations of Pc5 ULF waves during substorms<br />
*Francesco Lena, Detection of Hertz Frequency Multiharmonic Field Line Resonances at Low-L (L=1.1–1.5) During Van Allen Probe Perigee Passes<br />
<br />
== 2021 VGEM schedule ==<br />
UMEA will lead four sessions at the [https://gemworkshop.org/ 2021 Virtual GEM] workshop.<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''Recent Advances in ULF Wave Research'''<br />
This session will start with a short update on the ULF wave modeling challenge. The rest of the session will be for recent advances in ULF wave research, with priority given to presentations (1) with data or modeling results related to the challenge event (27-28 May 2017) or (2) discussions of ULF wave data-model comparisons.<br />
<br />
*Michelle Salzano, IPDP-Pi1B - modeling drift shell splitting<br />
*Aditi Upadhyay, Occurrence Characteristics of Electromagnetic Ion Cyclotron Waves at the Indian Antactrtic Station, Maitri<br />
*Yangyang Shen, Tens to hundreds of keV electron precipitation driven by kinetic Alfven waves during an electron injection<br />
*Chih-Ping Wang, Statistical results for Pi2 waves associated with the plasma sheet BBFs observed by THEMIS-RBSP pair with RBSP inside or outside the plasmasphere<br />
*Tom Elsden, Modelling the Varying Location of Field Line Resonances During Geomagnetic Storms<br />
*Denny Oliveira, Factors controlling shock-induced magnetospheric ULF waves<br />
*Short Oral Summaries of Posters<br />
*Open Discussion<br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''The Future of ULF Wave Research'''<br />
<br />
Hosted by Ayomide Olabode<br />
<br />
This session will begin with a review of the ULF wave FG’s original goals, research topics covered in the last 5 years and related activities, and unresolved questions and research objectives. The remainder of the session is open for 1-2 slide presentations on major unresolved questions in ULF wave research. We particularly encourage presentations (1) exploring topics that could be addressed by current/future GEM FG or decadal survey white paper, (2) highlighting major questions or obstacles preventing progress in ULF wave research (e.g., missing data in a critical region, missing theory/modeling component), (3) discuss how ULF wave researchers can best take advantage of future satellite missions, ground-based infrastructure, computing advances/big data/AI, and modeling/theory advances. <br />
<br />
*Mike Hartinger, Retrospective on the ULF wave focus group<br />
*Martin Archer, Surface Waves<br />
*Tom Elsden, 3D FLRs<br />
*Alexander Drozdov, Radial Diffusion<br />
*Ayomide Olabode and Michelle Salzano, Ground Magnetic Perturbations<br />
*Mark Engebretson, Pc1 waves / MMS k-vector technique<br />
*Xueling Shi, Applications of TEC observations<br />
*Open discussion, walk-in presentations welcome<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Tuesday, July 27, 2021<br />
<br />
'''ULF Wave M-I Coupling Processes'''<br />
This session is joint with the IEMIT FG. The session will begin with a review of the role of ULF waves on M-I coupling. The remainder of the session is open for 5-min presentations on ULF wave topics related to M-I coupling, e.g., auroral acceleration, particle precipitation, geomagnetic perturbations, GICs, etc. More questions and discussions will be left to the end.<br />
<br />
*Hui Zhang, Role of ULF waves in M-I coupling<br />
*Chaosong Huang, Global Pc5 pulsations<br />
*Tetsuo Motoba, Daytime Pc5 Diffuse Auroral Pulsations and Their Association With Outer Magnetospheric ULF Waves<br />
*Anton Artemyev, ULF driven precipitations as observed by ELFIN<br />
*Mark Engebretson, Magnetic perturbation events related to GICs<br />
*Denny Oliveira, IP shock impact angle control of local intense dB/dt variations during substorm<br />
*Xueling Shi, Sources of Intense Geoelectric Fields in the United States<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Friday, July 30, 2021<br />
<br />
'''Coupling Between ULF Waves and Cold Plasma'''<br />
<br />
Hosted by Rachel Rice<br />
<br />
This session is joint with the Cold Plasma FG. The session will begin with a review of mechanisms that couple cold plasma populations to ULF waves by Richard Denton. The remainder of the session is for contributed presentations describing (1) recent advances in our understanding of cold plasma interactions with ULF waves and (2) outstanding questions that could be discussed in future cold plasma FG sessions.<br />
<br />
*Richard Denton, Coupling Between ULF Waves and Cold Plasma<br />
*Alex Degeling, Modeling ULF Waves Trapped in a Plasmaspheric Density Plume <br />
*Eun Hwa Kim, Can Electromagnetic Ion Cyclotron Waves Propagate to the Ground?: 2D Full Wave Simulation<br />
*Bob Lysak, Relation of plasmaspheric cavity modes to Pi2 pulsations in an asymmetric plasmasphere<br />
*Yixin Hao, ULF wave-cold plasma interaction<br />
*Mike Hartinger, The relationship between global ULF wave properties and radial Alfven speed profile<br />
<br />
== 2021 Mini-GEM ==<br />
<br />
Recent findings in various areas of EMIC wave research<br />
<br />
Time: 5:30-7:00 CST, Sunday, December 12, 2021<br />
The session will take place in Hilton Garden Inn New Orleans Convention Center (1001 South Peters Street New Orleans, LA 70130), in Room Anzalea. Virtual participants are welcome to use the following zoom link: https://auburn.zoom.us/j/85948889952?pwd=bjdKQStVWmtRaUZWR1JHeEhSYnp2QT09<br />
<br />
Presentations:<br />
*Justin H. Lee, [https://drive.google.com/file/d/1EyrlbKD32TmdEWWqpcig9ENdxdbbQClE/view?usp=sharing MMS measurements of cold and hot ion composition and EMIC waves]<br />
*Kristine Sigsbee, [https://docs.google.com/presentation/d/1MvWgE_eMEtRm49lGgfV4bvLoGkpnTrtH/edit?usp=sharing Statistics of Electromagnetic Ion Cyclotron (EMIC) Rising Tones] <br />
*Michael Hartinger, Short overview of open questions<br />
*Open discussion</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=US_Ground-based_magnetometer_arrays&diff=6376US Ground-based magnetometer arrays2024-01-18T00:42:12Z<p>Mdhartin: </p>
<hr />
<div>=== US Ground Magnetometer Board ===<br />
<br />
This wiki page and related ground magnetometer board meetings are part of a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts. For more information about the current state and future of ground magnetometer networks in support of space weather monitoring and research, see this article in [https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017SW001718 Space Weather] as well as this [https://baas.aas.org/pub/2023n3i162/release/1?readingCollection=1fe5322b white paper] submitted to the 2024-2033 Solar and Space Physics (Heliophysics) Decadal Survey. <br />
<br />
''Current Ground Magnetometer Board Members:''<br />
* Peter Chi<br />
* Mark Engebretson<br />
* Jennifer Gannon (chair)<br />
* Jesper Gjerloev<br />
* Michael Hartinger<br />
* Hyomin Kim<br />
* Gang Lu<br />
* Doğacan Su Öztürk<br />
* Josh Rigler<br />
* Michelle Salzano (vice-chair)<br />
* Xueling Shi<br />
* Howard Singer<br />
* Endawoke Yizengaw<br />
* Zhonghua Xu<br />
<br />
''Former Ground Magnetometer Board Members:''<br />
* Carol Finn<br />
* Efthyia Zesta<br />
<br />
=== US-Sponsored Ground-Based Magnetometer Arrays and Programs* ===<br />
<br />
{| class="wikitable" style="width: 50%; height: 4em;"<br />
|-<br />
| Array || Location || Instruments || Manufacturer || No. of Locations<br />
|-<br />
| AAL-PIP || Antarctica || Fluxgate || Lviv Centre ISR || 6<br />
|-<br />
| AAL-PIP || Antarctica || Induction Coil || UNH || 4<br />
|-<br />
| AMBER || Africa || Fluxgate || UCLA || 7<br />
|-<br />
| AMBER || South America || Fluxgate || UCLA || 2<br />
|-<br />
| AMBER || East Asia || Fluxgate || UCLA || 4<br />
|-<br />
| Falcon || Continental US || Fluxgate || UCLA || 11<br />
|-<br />
| GIMA || Alaska || Fluxgate || Narod || 9<br />
|-<br />
| Jicamarca || South America || Fluxgate || UCLA || 2<br />
|-<br />
| LISN || South America || Fluxgate || Custom/Jicamarca || 6<br />
|-<br />
| MACCS || Arctic Canada || Fluxgate || Narod || 8<br />
|-<br />
| McMAC || Continental US & Mexico || Fluxgate || UCLA || 9<br />
|-<br />
| MEASURE || Continental US || Fluxgate || UCLA || 6<br />
|-<br />
| SAMBA || South America & Antarctica || Fluxgate || UCLA || 12<br />
|-<br />
| THEMIS || Continental US & Canada || Fluxgate || UCLA || 24<br />
|-<br />
| US Geological Survey || US & Territories || Fluxgate || Narod, Technical Univ of Denmark || 11<br />
|-<br />
| NJIT / AGO || Antarctica || Fluxgate || Bell Labs || 7<br />
|-<br />
| NJIT / AGO || Antarctica || Induction Coil || Tohoku University || 5<br />
|-<br />
| MICA || Antarctica || Induction Coil || UNH || 5<br />
|-<br />
| MICA || Arctic Canada || Induction Coil || UNH || 4<br />
|-<br />
| MICA || Svalbard || Induction Coil || UNH || 4<br />
|}<br />
<br />
*Some locations listed here have instruments that are not currently operating.<br />
<br />
=== Ground Magnetometer Data ===<br />
<br />
[http://supermag.jhuapl.edu/ SuperMAG]<br />
<br />
[https://www.usgs.gov/natural-hazards/geomagnetism/data-tools USGS Geomagnetism Program]<br />
<br />
[https://www.intermagnet.org/ INTERMAGNET]<br />
<br />
[http://vmo.igpp.ucla.edu/data1/SECS/Quicklook/ Spherical Elementary Currents] from James Weygand<br />
<br />
[http://themis.ssl.berkeley.edu/gmag/gmag_list.php?selyear=4000&selmonth=13&smap=on&sinfo=on&saelist=on&ae=on THEMIS]<br />
<br />
[https://cdaweb.gsfc.nasa.gov/index.html/ NASA CDAWeb]<br />
<br />
[http://mirl.unh.edu/ulf_status.html UNH Magnetic Induction Coil Array (MICA)]<br />
<br />
[http://search.iugonet.org/list.jsp IUGONET]<br />
<br />
=== Digital Object Identifiers for Ground Magnetometer Data ===<br />
<br />
Digital Object Identifiers (DOI) allow authors to cite data products just as they refer to papers. This is becoming a requirement of many journals, as it assures that the specific data used in a publication are findable and accessible. The DOI provides a permanent identifier (PID) for the data, remaining unchanged even if the data are moved to another archive. The "creators" (authors) of the data must link the DOI to a "landing page" that provides details about the data and methods for accessing them. Our group recommends that each ground magnetometer network generate DOIs for their datasets, at minimum one DOI for their original measurements (i.e., before filtering and other types of processing are performed).<br />
<br />
As a member of the [https://datacite.org DataCite organization], NASA Heliophysics (HP) can "mint" DOIs for ground magnetometer datasets. NASA HP is providing an easy means to assign DOIs to datasets using the HP Digital Resource Registry (HDRR) by providing landing pages for datasets based on their "SPASE" resource descriptions. As an example, any users of NASA's OMNI dataset can now use https://doi.org/10.48322/1shr-ht18 for the hourly dataset, and other DOIs for other sets, discoverable by a search with the Heliophysics Data Portal (HDP; https://heliophysicsdata.gsfc.nasa.gov; look for "omni" in the "observatory" entry at the left). More details for DOI initiation for resources in the HDP can be found [https://hpde.gsfc.nasa.gov/DOI_Initiative_October_2020.pdf here]. For further information, and especially to start the process of registering DOIs, contact James Weygand (jweygand@igpp.ucla.edu or jweygand@epss.ucla.edu).<br />
<br />
As noted above, a SPASE resource description is required for each magnetometer dataset to mint a DOI. Here's an example for the [https://drive.google.com/file/d/1MxEDFAa_grGuCdID9vwK9pRzkzH7FQYR/view?usp=sharing MACCS magnetometer network 5s measurements].<br />
<br />
== 2019 GEM workshop meeting ==<br />
<br />
The ground magnetometer advisory board was formed in 2016 as a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts.<br />
<br />
We invite the GEM community to attend our meeting on Monday, June 24 at 1:30 PM, where we’ll discuss updates on all the above items. Later this year, we’ll add new members to the advisory board who either operate ground magnetometers or use magnetometer data to support their scientific investigations and/or space weather monitoring efforts. If you’re interested in learning more about this opportunity, please attend this GEM meeting or contact Mike Hartinger (mdhartin@vt.edu).<br />
<br />
Monday, 24 June, 1:30 PM, Location: Santa Fe<br />
*Mike Hartinger - Updates on ground magnetometer advisory board activities<br />
*Mark Engebretson - Summary of information gathering report<br />
*Lisa Winter - NSF updates<br />
*Hyomin Kim - DRUM/DASI updates and future plans, discussion<br />
*Jesper Gjerloev - SuperMAG updates<br />
*Josh Rigler - USGS updates, updates from other magnetometer arrays<br />
<br />
== 2019 mini-GEM workshop meeting ==<br />
<br />
Sunday, 8 December, 1200-1330, Location: Oregon Room<br />
*Mike Hartinger - [https://drive.google.com/file/d/1f3nDkQU4Red2gBLe_I5z_z0LOTHRyfN8/view?usp=sharing Introduction and Overview of Advisory Board activities, updates on DOI and new instruments]<br />
*Howard Singer - [https://drive.google.com/file/d/16poHzPvIM60z9Z7E_qXHznRGL80cjRRY/view?usp=sharing How ground magnetometers are currently incorporated into forecasts at SWPC, how they could be incorporated in the future]<br />
*Jennifer Gannon - How ground magnetometers can best be used to monitor/investigate GIC, utility-grade magnetometers<br />
*Endawoke Yizengaw - Open discussion with NSF, DRUM/DASI future proposal plans<br />
*Anna Kelbert - [https://drive.google.com/open?id=1XFHxruhasIRvZ3JDGtVtExZE6d87tM0X USGS Geomagnetism Program updates]<br />
*Peter Chi - update on ULTIMA activities / international collaboration<br />
*James Weygand - [https://drive.google.com/open?id=1Uq5ArdynNUk6ymbrBAcbFU9zbzH1eD3t Spherical Elementary Currents and Mid/Low Latitude Data Availability]<br />
*Walk-ins TBD (Amy Keesee/Mike Coughlin,...)<br />
<br />
<br />
== August 2020 Virtual Discussion: Ground Magnetometer Measurements for Heliophysics Research and Space Weather Monitoring ==<br />
<br />
Friday, 7 August, 1500-1630 EDT<br />
<br />
[https://drive.google.com/file/d/1uQ18wVmQC9de6zGn8wXVmXHvkomQPP63/view?usp=sharing Meeting Summary and Community Feedback from Google Form]<br />
<br />
Discussion from this meeting and previous meetings was summarized in this [https://drive.google.com/file/d/1-lrglV9h7OneMK8XK0yjnPk3XhhMMMNg/view?usp=sharing Heliophysics 2050 white paper].<br />
<br />
Invited Speakers<br />
* Syau-Yun Hsieh – [https://drive.google.com/file/d/1nRB6Xjc8F4tyGDtFHSoH6Tr3Kxh8hnkq/view?usp=sharing SMILE mission ground-based support]<br />
* Enrico Camporeale – [https://drive.google.com/file/d/1JiQTM6I4q9TIcEYDlHSfWwM1nkwaLjNS/view?usp=sharing Long-term continuous magnetometer data for geomagnetic activity prediction using machine learning]<br />
* Slava Merkin – [https://drive.google.com/file/d/1-nALz_h5IUMtUPPZKGQh3KNHS-GxbBqx/view?usp=sharing What is required of global magnetosphere-ionosphere-thermosphere models to predict ground magnetic perturbations]<br />
<br />
Project Updates<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/15fE4UXOXYYjACtDilek9s1DDd8h9ODho/view?usp=sharing SuperMAG]<br />
* Michelle Salzano, [https://drive.google.com/file/d/12fI2yM-q_fw-4-4cN_8Nsp3oECtohjPh/view?usp=sharing MICA]<br />
* Josh Rigler, [https://drive.google.com/file/d/1aYjQcO-56TyNB0U97bobyRVsu1D05iJo/view?usp=sharing USGS] <br />
* Jennifer Gannon, [https://drive.google.com/file/d/17KkpAGoV1OwOAsi8n6x3fTF2q6xk_CNV/view?usp=sharing MagStar]<br />
* Chuck Smith, [https://drive.google.com/file/d/1VuUgOTyFrrBxuvxmdbJoVgYeyEmAUgIw/view?usp=sharing Space Weather Underground]<br />
* Endawoke Yizengaw, iMAGS<br />
* Peter Chi, [https://drive.google.com/file/d/1CX26PkNjz_8mFhrmqX14ZxE1m8eO-Rw3/view?usp=sharing SMART]<br />
* Mark Moldwin, [https://drive.google.com/file/d/1zrSgS7iImyWW7rlXWtqheU4gWOLUS3LW/view?usp=sharing New Ground Mag and TEC/GPS system]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1thUuT5pZqMjWI4xR5ytT8IvXSRpBl72c/view?usp=sharing MACCS]<br />
* Don Hampton, [https://drive.google.com/file/d/1DQyBge17GT9r7Vjvjp5LYXio9yGUkLnU/view?usp=sharing GIMA]<br />
* Hyomin Kim, AGO<br />
* Mike Hartinger, [https://drive.google.com/file/d/1OArNCvEEsFdXwi7qmz9_WNQskhcRqBGW/view?usp=sharing AALPIP]<br />
<br />
== February 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research ==<br />
<br />
Thursday, 4 February, 1100-1230 US Eastern Time<br />
<br />
This virtual meeting will begin with an invited talk from Gary Egbert on current/future applications of ground magnetometers to geophysics research, including magnetotellurics research relevant to Heliophysics/GIC. This continues a series of discussions intended to gather feedback for the upcoming Heliophysics Decadal Survey.<br />
<br />
The rest of the meeting will be for updates from SuperMAG and individual magnetometer networks, NSF announcements, and discussion of magnetometer digital object identifiers.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
[https://agu.confex.com/agu/fm20/meetingapp.cgi/Paper/685551 Link] to Gary Egbert's 2020 AGU presentation, "Modeling Diurnal Variation Magnetic Fields for Mantle Induction Studies"<br />
<br />
* 1100-1105 Mike Hartinger, [https://drive.google.com/file/d/1FQUYC_Q0F3I97RAYrOsCN_piy9cu8OcG/view?usp=sharing Introduction and Updates on Digital Object Identifiers]<br />
* 1105-1125 Gary Egbert, [https://drive.google.com/file/d/1fvp4QiW5BpPxtlmopLaPxKp-x9SUX2Wx/view?usp=sharing Current and Future Applications of Ground Magnetometers to Geophysics Research]<br />
* 1125-1135 Jennifer Gannon, [https://drive.google.com/file/d/1AL3NasABl5eDSE-Gh71-MTcR8BuG-PpH/view?usp=sharing MagStar]<br />
* 1135-1145 Josh Rigler / Anna Kelbert, USGS Updates<br />
* 1145-1155 Whitham Reeve, [https://drive.google.com/file/d/1TUetaa2wE7W_b2-h0v3q287B0h6F8LzA/view?usp=sharing SAM-III]<br />
* 1155-1205 Rob Barnes / Matt Potter, [https://drive.google.com/file/d/1xXunj9lafw2m5C3AdDBHi6ZqTPpU-Jtf/view?usp=sharing SuperMAG Updates]<br />
* 1205-1215 [https://drive.google.com/file/d/1YDZB7mhG8rZS5EqzRIax4AvCL2wmm6q7/view?usp=sharing Collaboration tools and NSF opportunities]<br />
* 1215-1230 Additional Brief Project Updates: [https://drive.google.com/file/d/1R-SetUGvFfZyA0emtZtOxZ3WbjXXF2BN/view?usp=sharing MICA], [https://drive.google.com/file/d/1Z62YCvAGkvF2lJmHLAJOG3qtlFvYs09P/view?usp=sharing MACCS], [https://drive.google.com/file/d/1THwB7Cq0K5hhPhY_3BRh9R724FwXssD-/view?usp=sharing NJIT], [https://drive.google.com/file/d/17XYtKyofyw_1uRc1T69K2l7Qxiiccyau/view?usp=sharing AALPIP]<br />
<br />
== July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey ==<br />
<br />
Thursday, 8 July, 1200-1330 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey. The discussion began with several presentations related to open magnetometer science questions and infrastructure. The rest of the meeting was for open discussion on topics for magnetometer-related white papers for the decadal survey.<br />
<br />
[https://drive.google.com/file/d/1yEqAe-CuK0XQBLiP5vsrhEAg3LhRaIui/view?usp=sharing Meeting notes]<br />
<br />
* Mike Hartinger, [https://drive.google.com/file/d/1FVolkY5xVn4DeL_3TFQmLWIpcdl6vKHF/view?usp=sharing Overview of the Meeting, NSF Opportunities]<br />
* Adam Schultz, [https://drive.google.com/file/d/1iVcUlawbmcbkhyVZLdaLp1s-_f8QSKm7/view?usp=sharing Improving Situational Awareness of ground-level EM fields]<br />
* Dan Schneider, [https://drive.google.com/file/d/1KGiHVAEQkynAkKeqYFBwV0ynrrMAetke/view?usp=sharing QuakeFinder: Induction Coil Magnetometer Array]<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/1G4MGyKsbCIdBhNU0e3hoNqeA7HP_uZsD/view?usp=sharing SuperMAG news]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1pNoWfpl8XyaQ5qtKX1nMXJrzaxX3sIkk/view?usp=sharing Unresolved issues in MPE-GIC studies]<br />
<br />
== October 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (1) ==<br />
<br />
Thursday, 19 October, 1400-1530 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July 2021. This was a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== February 2022 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (2) ==<br />
<br />
Monday, 7 February, 1600-1700 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July and October 2021. The meeting started with a [https://drive.google.com/file/d/1TAjZPnhS60InWkukMMrVQh4rxzeZo0hd/view?usp=sharing presentation] discussing upcoming meetings and other announcements related to the Decadal Survey as well as plans for an over-arching ground magnetometer white paper. The remaining time was for a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== 2022 GEM Workshop meeting ==<br />
<br />
Monday, 20 June, 1030-1200 US Hawaii Time, Stingray room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2022 GEM workshop. The session will begin with an introduction to both groups followed by an invited talk by Dr. Chigomezyo Ngwira on geomagnetically induced currents and geomagnetic disturbances. The remainder of the session will be for discussion of Solar and Space Physics Decadal Survey white papers related to ground magnetometers and short magnetometer network updates.<br />
<br />
* 1030-1035 - Mike Hartinger, Overview of the US Ground Magnetometer Group<br />
* 1035-1040 - Xueling Shi, Overview of the new GEM GIC focus group<br />
* 1040-1100 - Chigomezyo Ngwira, Review of Geomagnetic Disturbances and GIC<br />
* 1100-1105 - Mike Hartinger, GMAG group decadal survey discussions overview<br />
* 1105-1110 - Mike Hartinger, Overarching magnetometer white paper<br />
* 1110-1115 - Jesper Gjerloev, Decadal survey white paper<br />
* 1115-1145 - General Q+A and discussion of decadal survey white paper topics<br />
* 1145-1200 - Magnetometer Network/SuperMAG Updates (1-slide/1-minute each): Jesper Gjerloev (SuperMAG), Shane Coyle (AALPIP), Shane Coyle (GPS Rollover), Michelle Salzano (MICA-S), Hyomin Kim (HamSCI magnetometer), Hyomin Kim (Deep polar cap Antarctic network), Josh Rigler (USGS magnetometer network), Mark Engebretson (MACCS - presenting virtually), Q+A<br />
<br />
== 2022 mini-GEM Workshop ==<br />
<br />
Sunday, 11 December, hybrid meeting<br />
<br />
The US magnetometer group participated in two joint sessions with the GEM GIC, MPEC, and IHMIC focus groups at the 2022 mini-GEM workshop. See the [https://gem.epss.ucla.edu/mediawiki/index.php/FG:_Understanding_the_causes_of_geomagnetic_disturbances_in_geospace_for_hazard_analysis_on_geomagnetically_induced_currents#2022_mini-GEM_Workshop_Meeting GIC FG wiki page] for details on the schedule.<br />
<br />
== 2023 GEM Workshop meeting ==<br />
<br />
Wednesday, 14 June, 1330-1500 US Pacific Time, Pacific A room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2023 GEM workshop.<br />
<br />
* 1330-1335 - Mike Hartinger, Overview of the US Ground Magnetometer Group and Recent Updates<br />
* 1335-1345 - Chia-Lin Huang, NSF updates<br />
* 1345-1350 - Jesper Gjerloev, SuperMAG updates<br />
* 1350-1355 - Peter Chi, ULTIMA updates<br />
* 1355-1400 - Discussion<br />
* 1400-1405 - Peter Chi, SMART network updates<br />
* 1405-1410 - Doga Ozturk, UAF SWUG Data Center<br />
* 1410-1415 - Zhonghua Xu, AALPIP network update<br />
* 1415-1420 - Hyomin Kim, NJIT update Antarctic geospace measurements<br />
* 1420-1425 - Mark Engebretson (virtual), MACCS network update and relevance to GDC/SMILE<br />
* 1425-1430 - Josh Rigler (virtual), USGS updates (observatories and variometers)<br />
* 1430-1435 - Mike Hartinger (for Shane Coyle), magget: A python module for finding and digesting ground magnetometer data from many modular data sources<br />
* 1435-1440 - Marc Lessard, Magnetic Induction Coil Array<br />
* 1440-1500 - General Q+A and discussion<br />
<br />
== 2023 mini-GEM Workshop ==<br />
<br />
Sunday, 10 December, 1530-1700 US Pacific Time, Gold Rush A room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2023 mini-GEM workshop. The session will begin with an introduction to both groups and a summary of recent activities, followed by updates from NSF and discussion of international collaborations involving ground magnetometers including International Polar Year. The rest of the session will be for SuperMAG updates, discussion of ground magnetometer campaigns with satellite missions (SMILE, GDC, EZE,…), and data sharing.<br />
<br />
* 1530-1535 - Mike Hartinger and Xueling Shi, GMAG board overview / Planned GIC FG activities<br />
* 1535-1545 - Chia-Lin Huang, NSF updates<br />
* 1545-1550 - Zhonghua Xu, Recap from GEOSCOPR workshop (Vladimir Papitashvili also available for Q+A)<br />
* 1550-1555 - Zhonghua Xu and Mike Hartinger, Early plans for ground magnetometers in the International Polar Year: IASC feedback<br />
* 1555-1600 - Lucilla Alfonsi (presented by Mike Hartinger), International Collaboration - SCAR AGATA <br />
* 1600-1610 - Discussion<br />
* 1610-1615 - Jesper Gjerloev, SuperMAG update<br />
* 1615-1620 - Jesper Gjerloev, EZIE mission coordination with ground-based measurements, including magnetometers<br />
* 1620-1625 - Bea Gallardo-Lacourt, GDC mission coordination with ground-based measurements, including magnetometers<br />
* 1625-1630 - Jennifer Carter, SMILE mission coordination with ground-based measurements, including magnetometers<br />
* 1630-1635 - Jennifer Carter and Maria-Theresia Walach, SMILE mission winter campaign planning<br />
* 1635-1640 - Alexander Drozdov, Accessing Magnetometers from Seismology Databases via SPEDAS software<br />
* 1640-1700 - General Q+A and discussion</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=US_Ground-based_magnetometer_arrays&diff=6373US Ground-based magnetometer arrays2024-01-08T20:45:21Z<p>Mdhartin: /* US Ground Magnetometer Board */</p>
<hr />
<div>=== US Ground Magnetometer Board ===<br />
<br />
This wiki page and related ground magnetometer board meetings are part of a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts. For more information about the current state and future of ground magnetometer networks in support of space weather monitoring and research, see this article in [https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017SW001718 Space Weather] as well as this [https://baas.aas.org/pub/2023n3i162/release/1?readingCollection=1fe5322b white paper] submitted to the 2024-2033 Solar and Space Physics (Heliophysics) Decadal Survey. <br />
<br />
''Current Ground Magnetometer Board Members:''<br />
* Peter Chi<br />
* Mark Engebretson, (former chair)<br />
* Jennifer Gannon<br />
* Jesper Gjerloev<br />
* Michael Hartinger, (current chair, mhartinger@spacescience.org)<br />
* Hyomin Kim<br />
* Gang Lu<br />
* Doğacan Su Öztürk<br />
* Josh Rigler<br />
* Michelle Salzano (vice-chair)<br />
* Xueling Shi<br />
* Howard Singer<br />
* Endawoke Yizengaw<br />
* Zhonghua Xu<br />
<br />
''Former Ground Magnetometer Board Members:''<br />
* Carol Finn<br />
* Efthyia Zesta<br />
<br />
=== US-Sponsored Ground-Based Magnetometer Arrays and Programs* ===<br />
<br />
{| class="wikitable" style="width: 50%; height: 4em;"<br />
|-<br />
| Array || Location || Instruments || Manufacturer || No. of Locations<br />
|-<br />
| AAL-PIP || Antarctica || Fluxgate || Lviv Centre ISR || 6<br />
|-<br />
| AAL-PIP || Antarctica || Induction Coil || UNH || 4<br />
|-<br />
| AMBER || Africa || Fluxgate || UCLA || 7<br />
|-<br />
| AMBER || South America || Fluxgate || UCLA || 2<br />
|-<br />
| AMBER || East Asia || Fluxgate || UCLA || 4<br />
|-<br />
| Falcon || Continental US || Fluxgate || UCLA || 11<br />
|-<br />
| GIMA || Alaska || Fluxgate || Narod || 9<br />
|-<br />
| Jicamarca || South America || Fluxgate || UCLA || 2<br />
|-<br />
| LISN || South America || Fluxgate || Custom/Jicamarca || 6<br />
|-<br />
| MACCS || Arctic Canada || Fluxgate || Narod || 8<br />
|-<br />
| McMAC || Continental US & Mexico || Fluxgate || UCLA || 9<br />
|-<br />
| MEASURE || Continental US || Fluxgate || UCLA || 6<br />
|-<br />
| SAMBA || South America & Antarctica || Fluxgate || UCLA || 12<br />
|-<br />
| THEMIS || Continental US & Canada || Fluxgate || UCLA || 24<br />
|-<br />
| US Geological Survey || US & Territories || Fluxgate || Narod, Technical Univ of Denmark || 11<br />
|-<br />
| NJIT / AGO || Antarctica || Fluxgate || Bell Labs || 7<br />
|-<br />
| NJIT / AGO || Antarctica || Induction Coil || Tohoku University || 5<br />
|-<br />
| MICA || Antarctica || Induction Coil || UNH || 5<br />
|-<br />
| MICA || Arctic Canada || Induction Coil || UNH || 4<br />
|-<br />
| MICA || Svalbard || Induction Coil || UNH || 4<br />
|}<br />
<br />
*Some locations listed here have instruments that are not currently operating.<br />
<br />
=== Ground Magnetometer Data ===<br />
<br />
[http://supermag.jhuapl.edu/ SuperMAG]<br />
<br />
[https://www.usgs.gov/natural-hazards/geomagnetism/data-tools USGS Geomagnetism Program]<br />
<br />
[https://www.intermagnet.org/ INTERMAGNET]<br />
<br />
[http://vmo.igpp.ucla.edu/data1/SECS/Quicklook/ Spherical Elementary Currents] from James Weygand<br />
<br />
[http://themis.ssl.berkeley.edu/gmag/gmag_list.php?selyear=4000&selmonth=13&smap=on&sinfo=on&saelist=on&ae=on THEMIS]<br />
<br />
[https://cdaweb.gsfc.nasa.gov/index.html/ NASA CDAWeb]<br />
<br />
[http://mirl.unh.edu/ulf_status.html UNH Magnetic Induction Coil Array (MICA)]<br />
<br />
[http://search.iugonet.org/list.jsp IUGONET]<br />
<br />
=== Digital Object Identifiers for Ground Magnetometer Data ===<br />
<br />
Digital Object Identifiers (DOI) allow authors to cite data products just as they refer to papers. This is becoming a requirement of many journals, as it assures that the specific data used in a publication are findable and accessible. The DOI provides a permanent identifier (PID) for the data, remaining unchanged even if the data are moved to another archive. The "creators" (authors) of the data must link the DOI to a "landing page" that provides details about the data and methods for accessing them. Our group recommends that each ground magnetometer network generate DOIs for their datasets, at minimum one DOI for their original measurements (i.e., before filtering and other types of processing are performed).<br />
<br />
As a member of the [https://datacite.org DataCite organization], NASA Heliophysics (HP) can "mint" DOIs for ground magnetometer datasets. NASA HP is providing an easy means to assign DOIs to datasets using the HP Digital Resource Registry (HDRR) by providing landing pages for datasets based on their "SPASE" resource descriptions. As an example, any users of NASA's OMNI dataset can now use https://doi.org/10.48322/1shr-ht18 for the hourly dataset, and other DOIs for other sets, discoverable by a search with the Heliophysics Data Portal (HDP; https://heliophysicsdata.gsfc.nasa.gov; look for "omni" in the "observatory" entry at the left). More details for DOI initiation for resources in the HDP can be found [https://hpde.gsfc.nasa.gov/DOI_Initiative_October_2020.pdf here]. For further information, and especially to start the process of registering DOIs, contact James Weygand (jweygand@igpp.ucla.edu or jweygand@epss.ucla.edu).<br />
<br />
As noted above, a SPASE resource description is required for each magnetometer dataset to mint a DOI. Here's an example for the [https://drive.google.com/file/d/1MxEDFAa_grGuCdID9vwK9pRzkzH7FQYR/view?usp=sharing MACCS magnetometer network 5s measurements].<br />
<br />
== 2019 GEM workshop meeting ==<br />
<br />
The ground magnetometer advisory board was formed in 2016 as a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts.<br />
<br />
We invite the GEM community to attend our meeting on Monday, June 24 at 1:30 PM, where we’ll discuss updates on all the above items. Later this year, we’ll add new members to the advisory board who either operate ground magnetometers or use magnetometer data to support their scientific investigations and/or space weather monitoring efforts. If you’re interested in learning more about this opportunity, please attend this GEM meeting or contact Mike Hartinger (mdhartin@vt.edu).<br />
<br />
Monday, 24 June, 1:30 PM, Location: Santa Fe<br />
*Mike Hartinger - Updates on ground magnetometer advisory board activities<br />
*Mark Engebretson - Summary of information gathering report<br />
*Lisa Winter - NSF updates<br />
*Hyomin Kim - DRUM/DASI updates and future plans, discussion<br />
*Jesper Gjerloev - SuperMAG updates<br />
*Josh Rigler - USGS updates, updates from other magnetometer arrays<br />
<br />
== 2019 mini-GEM workshop meeting ==<br />
<br />
Sunday, 8 December, 1200-1330, Location: Oregon Room<br />
*Mike Hartinger - [https://drive.google.com/file/d/1f3nDkQU4Red2gBLe_I5z_z0LOTHRyfN8/view?usp=sharing Introduction and Overview of Advisory Board activities, updates on DOI and new instruments]<br />
*Howard Singer - [https://drive.google.com/file/d/16poHzPvIM60z9Z7E_qXHznRGL80cjRRY/view?usp=sharing How ground magnetometers are currently incorporated into forecasts at SWPC, how they could be incorporated in the future]<br />
*Jennifer Gannon - How ground magnetometers can best be used to monitor/investigate GIC, utility-grade magnetometers<br />
*Endawoke Yizengaw - Open discussion with NSF, DRUM/DASI future proposal plans<br />
*Anna Kelbert - [https://drive.google.com/open?id=1XFHxruhasIRvZ3JDGtVtExZE6d87tM0X USGS Geomagnetism Program updates]<br />
*Peter Chi - update on ULTIMA activities / international collaboration<br />
*James Weygand - [https://drive.google.com/open?id=1Uq5ArdynNUk6ymbrBAcbFU9zbzH1eD3t Spherical Elementary Currents and Mid/Low Latitude Data Availability]<br />
*Walk-ins TBD (Amy Keesee/Mike Coughlin,...)<br />
<br />
<br />
== August 2020 Virtual Discussion: Ground Magnetometer Measurements for Heliophysics Research and Space Weather Monitoring ==<br />
<br />
Friday, 7 August, 1500-1630 EDT<br />
<br />
[https://drive.google.com/file/d/1uQ18wVmQC9de6zGn8wXVmXHvkomQPP63/view?usp=sharing Meeting Summary and Community Feedback from Google Form]<br />
<br />
Discussion from this meeting and previous meetings was summarized in this [https://drive.google.com/file/d/1-lrglV9h7OneMK8XK0yjnPk3XhhMMMNg/view?usp=sharing Heliophysics 2050 white paper].<br />
<br />
Invited Speakers<br />
* Syau-Yun Hsieh – [https://drive.google.com/file/d/1nRB6Xjc8F4tyGDtFHSoH6Tr3Kxh8hnkq/view?usp=sharing SMILE mission ground-based support]<br />
* Enrico Camporeale – [https://drive.google.com/file/d/1JiQTM6I4q9TIcEYDlHSfWwM1nkwaLjNS/view?usp=sharing Long-term continuous magnetometer data for geomagnetic activity prediction using machine learning]<br />
* Slava Merkin – [https://drive.google.com/file/d/1-nALz_h5IUMtUPPZKGQh3KNHS-GxbBqx/view?usp=sharing What is required of global magnetosphere-ionosphere-thermosphere models to predict ground magnetic perturbations]<br />
<br />
Project Updates<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/15fE4UXOXYYjACtDilek9s1DDd8h9ODho/view?usp=sharing SuperMAG]<br />
* Michelle Salzano, [https://drive.google.com/file/d/12fI2yM-q_fw-4-4cN_8Nsp3oECtohjPh/view?usp=sharing MICA]<br />
* Josh Rigler, [https://drive.google.com/file/d/1aYjQcO-56TyNB0U97bobyRVsu1D05iJo/view?usp=sharing USGS] <br />
* Jennifer Gannon, [https://drive.google.com/file/d/17KkpAGoV1OwOAsi8n6x3fTF2q6xk_CNV/view?usp=sharing MagStar]<br />
* Chuck Smith, [https://drive.google.com/file/d/1VuUgOTyFrrBxuvxmdbJoVgYeyEmAUgIw/view?usp=sharing Space Weather Underground]<br />
* Endawoke Yizengaw, iMAGS<br />
* Peter Chi, [https://drive.google.com/file/d/1CX26PkNjz_8mFhrmqX14ZxE1m8eO-Rw3/view?usp=sharing SMART]<br />
* Mark Moldwin, [https://drive.google.com/file/d/1zrSgS7iImyWW7rlXWtqheU4gWOLUS3LW/view?usp=sharing New Ground Mag and TEC/GPS system]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1thUuT5pZqMjWI4xR5ytT8IvXSRpBl72c/view?usp=sharing MACCS]<br />
* Don Hampton, [https://drive.google.com/file/d/1DQyBge17GT9r7Vjvjp5LYXio9yGUkLnU/view?usp=sharing GIMA]<br />
* Hyomin Kim, AGO<br />
* Mike Hartinger, [https://drive.google.com/file/d/1OArNCvEEsFdXwi7qmz9_WNQskhcRqBGW/view?usp=sharing AALPIP]<br />
<br />
== February 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research ==<br />
<br />
Thursday, 4 February, 1100-1230 US Eastern Time<br />
<br />
This virtual meeting will begin with an invited talk from Gary Egbert on current/future applications of ground magnetometers to geophysics research, including magnetotellurics research relevant to Heliophysics/GIC. This continues a series of discussions intended to gather feedback for the upcoming Heliophysics Decadal Survey.<br />
<br />
The rest of the meeting will be for updates from SuperMAG and individual magnetometer networks, NSF announcements, and discussion of magnetometer digital object identifiers.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
[https://agu.confex.com/agu/fm20/meetingapp.cgi/Paper/685551 Link] to Gary Egbert's 2020 AGU presentation, "Modeling Diurnal Variation Magnetic Fields for Mantle Induction Studies"<br />
<br />
* 1100-1105 Mike Hartinger, [https://drive.google.com/file/d/1FQUYC_Q0F3I97RAYrOsCN_piy9cu8OcG/view?usp=sharing Introduction and Updates on Digital Object Identifiers]<br />
* 1105-1125 Gary Egbert, [https://drive.google.com/file/d/1fvp4QiW5BpPxtlmopLaPxKp-x9SUX2Wx/view?usp=sharing Current and Future Applications of Ground Magnetometers to Geophysics Research]<br />
* 1125-1135 Jennifer Gannon, [https://drive.google.com/file/d/1AL3NasABl5eDSE-Gh71-MTcR8BuG-PpH/view?usp=sharing MagStar]<br />
* 1135-1145 Josh Rigler / Anna Kelbert, USGS Updates<br />
* 1145-1155 Whitham Reeve, [https://drive.google.com/file/d/1TUetaa2wE7W_b2-h0v3q287B0h6F8LzA/view?usp=sharing SAM-III]<br />
* 1155-1205 Rob Barnes / Matt Potter, [https://drive.google.com/file/d/1xXunj9lafw2m5C3AdDBHi6ZqTPpU-Jtf/view?usp=sharing SuperMAG Updates]<br />
* 1205-1215 [https://drive.google.com/file/d/1YDZB7mhG8rZS5EqzRIax4AvCL2wmm6q7/view?usp=sharing Collaboration tools and NSF opportunities]<br />
* 1215-1230 Additional Brief Project Updates: [https://drive.google.com/file/d/1R-SetUGvFfZyA0emtZtOxZ3WbjXXF2BN/view?usp=sharing MICA], [https://drive.google.com/file/d/1Z62YCvAGkvF2lJmHLAJOG3qtlFvYs09P/view?usp=sharing MACCS], [https://drive.google.com/file/d/1THwB7Cq0K5hhPhY_3BRh9R724FwXssD-/view?usp=sharing NJIT], [https://drive.google.com/file/d/17XYtKyofyw_1uRc1T69K2l7Qxiiccyau/view?usp=sharing AALPIP]<br />
<br />
== July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey ==<br />
<br />
Thursday, 8 July, 1200-1330 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey. The discussion began with several presentations related to open magnetometer science questions and infrastructure. The rest of the meeting was for open discussion on topics for magnetometer-related white papers for the decadal survey.<br />
<br />
[https://drive.google.com/file/d/1yEqAe-CuK0XQBLiP5vsrhEAg3LhRaIui/view?usp=sharing Meeting notes]<br />
<br />
* Mike Hartinger, [https://drive.google.com/file/d/1FVolkY5xVn4DeL_3TFQmLWIpcdl6vKHF/view?usp=sharing Overview of the Meeting, NSF Opportunities]<br />
* Adam Schultz, [https://drive.google.com/file/d/1iVcUlawbmcbkhyVZLdaLp1s-_f8QSKm7/view?usp=sharing Improving Situational Awareness of ground-level EM fields]<br />
* Dan Schneider, [https://drive.google.com/file/d/1KGiHVAEQkynAkKeqYFBwV0ynrrMAetke/view?usp=sharing QuakeFinder: Induction Coil Magnetometer Array]<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/1G4MGyKsbCIdBhNU0e3hoNqeA7HP_uZsD/view?usp=sharing SuperMAG news]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1pNoWfpl8XyaQ5qtKX1nMXJrzaxX3sIkk/view?usp=sharing Unresolved issues in MPE-GIC studies]<br />
<br />
== October 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (1) ==<br />
<br />
Thursday, 19 October, 1400-1530 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July 2021. This was a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== February 2022 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (2) ==<br />
<br />
Monday, 7 February, 1600-1700 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July and October 2021. The meeting started with a [https://drive.google.com/file/d/1TAjZPnhS60InWkukMMrVQh4rxzeZo0hd/view?usp=sharing presentation] discussing upcoming meetings and other announcements related to the Decadal Survey as well as plans for an over-arching ground magnetometer white paper. The remaining time was for a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== 2022 GEM Workshop meeting ==<br />
<br />
Monday, 20 June, 1030-1200 US Hawaii Time, Stingray room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2022 GEM workshop. The session will begin with an introduction to both groups followed by an invited talk by Dr. Chigomezyo Ngwira on geomagnetically induced currents and geomagnetic disturbances. The remainder of the session will be for discussion of Solar and Space Physics Decadal Survey white papers related to ground magnetometers and short magnetometer network updates.<br />
<br />
* 1030-1035 - Mike Hartinger, Overview of the US Ground Magnetometer Group<br />
* 1035-1040 - Xueling Shi, Overview of the new GEM GIC focus group<br />
* 1040-1100 - Chigomezyo Ngwira, Review of Geomagnetic Disturbances and GIC<br />
* 1100-1105 - Mike Hartinger, GMAG group decadal survey discussions overview<br />
* 1105-1110 - Mike Hartinger, Overarching magnetometer white paper<br />
* 1110-1115 - Jesper Gjerloev, Decadal survey white paper<br />
* 1115-1145 - General Q+A and discussion of decadal survey white paper topics<br />
* 1145-1200 - Magnetometer Network/SuperMAG Updates (1-slide/1-minute each): Jesper Gjerloev (SuperMAG), Shane Coyle (AALPIP), Shane Coyle (GPS Rollover), Michelle Salzano (MICA-S), Hyomin Kim (HamSCI magnetometer), Hyomin Kim (Deep polar cap Antarctic network), Josh Rigler (USGS magnetometer network), Mark Engebretson (MACCS - presenting virtually), Q+A<br />
<br />
== 2022 mini-GEM Workshop ==<br />
<br />
Sunday, 11 December, hybrid meeting<br />
<br />
The US magnetometer group participated in two joint sessions with the GEM GIC, MPEC, and IHMIC focus groups at the 2022 mini-GEM workshop. See the [https://gem.epss.ucla.edu/mediawiki/index.php/FG:_Understanding_the_causes_of_geomagnetic_disturbances_in_geospace_for_hazard_analysis_on_geomagnetically_induced_currents#2022_mini-GEM_Workshop_Meeting GIC FG wiki page] for details on the schedule.<br />
<br />
== 2023 GEM Workshop meeting ==<br />
<br />
Wednesday, 14 June, 1330-1500 US Pacific Time, Pacific A room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2023 GEM workshop.<br />
<br />
* 1330-1335 - Mike Hartinger, Overview of the US Ground Magnetometer Group and Recent Updates<br />
* 1335-1345 - Chia-Lin Huang, NSF updates<br />
* 1345-1350 - Jesper Gjerloev, SuperMAG updates<br />
* 1350-1355 - Peter Chi, ULTIMA updates<br />
* 1355-1400 - Discussion<br />
* 1400-1405 - Peter Chi, SMART network updates<br />
* 1405-1410 - Doga Ozturk, UAF SWUG Data Center<br />
* 1410-1415 - Zhonghua Xu, AALPIP network update<br />
* 1415-1420 - Hyomin Kim, NJIT update Antarctic geospace measurements<br />
* 1420-1425 - Mark Engebretson (virtual), MACCS network update and relevance to GDC/SMILE<br />
* 1425-1430 - Josh Rigler (virtual), USGS updates (observatories and variometers)<br />
* 1430-1435 - Mike Hartinger (for Shane Coyle), magget: A python module for finding and digesting ground magnetometer data from many modular data sources<br />
* 1435-1440 - Marc Lessard, Magnetic Induction Coil Array<br />
* 1440-1500 - General Q+A and discussion<br />
<br />
== 2023 mini-GEM Workshop ==<br />
<br />
Sunday, 10 December, 1530-1700 US Pacific Time, Gold Rush A room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2023 mini-GEM workshop. The session will begin with an introduction to both groups and a summary of recent activities, followed by updates from NSF and discussion of international collaborations involving ground magnetometers including International Polar Year. The rest of the session will be for SuperMAG updates, discussion of ground magnetometer campaigns with satellite missions (SMILE, GDC, EZE,…), and data sharing.<br />
<br />
* 1530-1535 - Mike Hartinger and Xueling Shi, GMAG board overview / Planned GIC FG activities<br />
* 1535-1545 - Chia-Lin Huang, NSF updates<br />
* 1545-1550 - Zhonghua Xu, Recap from GEOSCOPR workshop (Vladimir Papitashvili also available for Q+A)<br />
* 1550-1555 - Zhonghua Xu and Mike Hartinger, Early plans for ground magnetometers in the International Polar Year: IASC feedback<br />
* 1555-1600 - Lucilla Alfonsi (presented by Mike Hartinger), International Collaboration - SCAR AGATA <br />
* 1600-1610 - Discussion<br />
* 1610-1615 - Jesper Gjerloev, SuperMAG update<br />
* 1615-1620 - Jesper Gjerloev, EZIE mission coordination with ground-based measurements, including magnetometers<br />
* 1620-1625 - Bea Gallardo-Lacourt, GDC mission coordination with ground-based measurements, including magnetometers<br />
* 1625-1630 - Jennifer Carter, SMILE mission coordination with ground-based measurements, including magnetometers<br />
* 1630-1635 - Jennifer Carter and Maria-Theresia Walach, SMILE mission winter campaign planning<br />
* 1635-1640 - Alexander Drozdov, Accessing Magnetometers from Seismology Databases via SPEDAS software<br />
* 1640-1700 - General Q+A and discussion</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=US_Ground-based_magnetometer_arrays&diff=6313US Ground-based magnetometer arrays2023-12-05T15:41:57Z<p>Mdhartin: /* US Ground Magnetometer Board */</p>
<hr />
<div>=== US Ground Magnetometer Board ===<br />
<br />
This wiki page and related ground magnetometer board meetings are part of a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts. For more information about the current state and future of ground magnetometer networks in support of space weather monitoring and research, see this article in [https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017SW001718 Space Weather] as well as this [https://baas.aas.org/pub/2023n3i162/release/1?readingCollection=1fe5322b white paper] submitted to the 2024-2033 Solar and Space Physics (Heliophysics) Decadal Survey. <br />
<br />
''Current Ground Magnetometer Board Members:''<br />
* Peter Chi<br />
* Mark Engebretson, (former chair)<br />
* Jennifer Gannon<br />
* Jesper Gjerloev<br />
* Michael Hartinger, (current chair, mhartinger@spacescience.org)<br />
* Hyomin Kim<br />
* Gang Lu<br />
* Josh Rigler<br />
* Michelle Salzano<br />
* Howard Singer<br />
* Endawoke Yizengaw<br />
<br />
''Former Ground Magnetometer Board Members:''<br />
* Carol Finn<br />
* Efthyia Zesta<br />
<br />
=== US-Sponsored Ground-Based Magnetometer Arrays and Programs* ===<br />
<br />
{| class="wikitable" style="width: 50%; height: 4em;"<br />
|-<br />
| Array || Location || Instruments || Manufacturer || No. of Locations<br />
|-<br />
| AAL-PIP || Antarctica || Fluxgate || Lviv Centre ISR || 6<br />
|-<br />
| AAL-PIP || Antarctica || Induction Coil || UNH || 4<br />
|-<br />
| AMBER || Africa || Fluxgate || UCLA || 7<br />
|-<br />
| AMBER || South America || Fluxgate || UCLA || 2<br />
|-<br />
| AMBER || East Asia || Fluxgate || UCLA || 4<br />
|-<br />
| Falcon || Continental US || Fluxgate || UCLA || 11<br />
|-<br />
| GIMA || Alaska || Fluxgate || Narod || 9<br />
|-<br />
| Jicamarca || South America || Fluxgate || UCLA || 2<br />
|-<br />
| LISN || South America || Fluxgate || Custom/Jicamarca || 6<br />
|-<br />
| MACCS || Arctic Canada || Fluxgate || Narod || 8<br />
|-<br />
| McMAC || Continental US & Mexico || Fluxgate || UCLA || 9<br />
|-<br />
| MEASURE || Continental US || Fluxgate || UCLA || 6<br />
|-<br />
| SAMBA || South America & Antarctica || Fluxgate || UCLA || 12<br />
|-<br />
| THEMIS || Continental US & Canada || Fluxgate || UCLA || 24<br />
|-<br />
| US Geological Survey || US & Territories || Fluxgate || Narod, Technical Univ of Denmark || 11<br />
|-<br />
| NJIT / AGO || Antarctica || Fluxgate || Bell Labs || 7<br />
|-<br />
| NJIT / AGO || Antarctica || Induction Coil || Tohoku University || 5<br />
|-<br />
| MICA || Antarctica || Induction Coil || UNH || 5<br />
|-<br />
| MICA || Arctic Canada || Induction Coil || UNH || 4<br />
|-<br />
| MICA || Svalbard || Induction Coil || UNH || 4<br />
|}<br />
<br />
*Some locations listed here have instruments that are not currently operating.<br />
<br />
=== Ground Magnetometer Data ===<br />
<br />
[http://supermag.jhuapl.edu/ SuperMAG]<br />
<br />
[https://www.usgs.gov/natural-hazards/geomagnetism/data-tools USGS Geomagnetism Program]<br />
<br />
[https://www.intermagnet.org/ INTERMAGNET]<br />
<br />
[http://vmo.igpp.ucla.edu/data1/SECS/Quicklook/ Spherical Elementary Currents] from James Weygand<br />
<br />
[http://themis.ssl.berkeley.edu/gmag/gmag_list.php?selyear=4000&selmonth=13&smap=on&sinfo=on&saelist=on&ae=on THEMIS]<br />
<br />
[https://cdaweb.gsfc.nasa.gov/index.html/ NASA CDAWeb]<br />
<br />
[http://mirl.unh.edu/ulf_status.html UNH Magnetic Induction Coil Array (MICA)]<br />
<br />
[http://search.iugonet.org/list.jsp IUGONET]<br />
<br />
=== Digital Object Identifiers for Ground Magnetometer Data ===<br />
<br />
Digital Object Identifiers (DOI) allow authors to cite data products just as they refer to papers. This is becoming a requirement of many journals, as it assures that the specific data used in a publication are findable and accessible. The DOI provides a permanent identifier (PID) for the data, remaining unchanged even if the data are moved to another archive. The "creators" (authors) of the data must link the DOI to a "landing page" that provides details about the data and methods for accessing them. Our group recommends that each ground magnetometer network generate DOIs for their datasets, at minimum one DOI for their original measurements (i.e., before filtering and other types of processing are performed).<br />
<br />
As a member of the [https://datacite.org DataCite organization], NASA Heliophysics (HP) can "mint" DOIs for ground magnetometer datasets. NASA HP is providing an easy means to assign DOIs to datasets using the HP Digital Resource Registry (HDRR) by providing landing pages for datasets based on their "SPASE" resource descriptions. As an example, any users of NASA's OMNI dataset can now use https://doi.org/10.48322/1shr-ht18 for the hourly dataset, and other DOIs for other sets, discoverable by a search with the Heliophysics Data Portal (HDP; https://heliophysicsdata.gsfc.nasa.gov; look for "omni" in the "observatory" entry at the left). More details for DOI initiation for resources in the HDP can be found [https://hpde.gsfc.nasa.gov/DOI_Initiative_October_2020.pdf here]. For further information, and especially to start the process of registering DOIs, contact James Weygand (jweygand@igpp.ucla.edu or jweygand@epss.ucla.edu).<br />
<br />
As noted above, a SPASE resource description is required for each magnetometer dataset to mint a DOI. Here's an example for the [https://drive.google.com/file/d/1MxEDFAa_grGuCdID9vwK9pRzkzH7FQYR/view?usp=sharing MACCS magnetometer network 5s measurements].<br />
<br />
== 2019 GEM workshop meeting ==<br />
<br />
The ground magnetometer advisory board was formed in 2016 as a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts.<br />
<br />
We invite the GEM community to attend our meeting on Monday, June 24 at 1:30 PM, where we’ll discuss updates on all the above items. Later this year, we’ll add new members to the advisory board who either operate ground magnetometers or use magnetometer data to support their scientific investigations and/or space weather monitoring efforts. If you’re interested in learning more about this opportunity, please attend this GEM meeting or contact Mike Hartinger (mdhartin@vt.edu).<br />
<br />
Monday, 24 June, 1:30 PM, Location: Santa Fe<br />
*Mike Hartinger - Updates on ground magnetometer advisory board activities<br />
*Mark Engebretson - Summary of information gathering report<br />
*Lisa Winter - NSF updates<br />
*Hyomin Kim - DRUM/DASI updates and future plans, discussion<br />
*Jesper Gjerloev - SuperMAG updates<br />
*Josh Rigler - USGS updates, updates from other magnetometer arrays<br />
<br />
== 2019 mini-GEM workshop meeting ==<br />
<br />
Sunday, 8 December, 1200-1330, Location: Oregon Room<br />
*Mike Hartinger - [https://drive.google.com/file/d/1f3nDkQU4Red2gBLe_I5z_z0LOTHRyfN8/view?usp=sharing Introduction and Overview of Advisory Board activities, updates on DOI and new instruments]<br />
*Howard Singer - [https://drive.google.com/file/d/16poHzPvIM60z9Z7E_qXHznRGL80cjRRY/view?usp=sharing How ground magnetometers are currently incorporated into forecasts at SWPC, how they could be incorporated in the future]<br />
*Jennifer Gannon - How ground magnetometers can best be used to monitor/investigate GIC, utility-grade magnetometers<br />
*Endawoke Yizengaw - Open discussion with NSF, DRUM/DASI future proposal plans<br />
*Anna Kelbert - [https://drive.google.com/open?id=1XFHxruhasIRvZ3JDGtVtExZE6d87tM0X USGS Geomagnetism Program updates]<br />
*Peter Chi - update on ULTIMA activities / international collaboration<br />
*James Weygand - [https://drive.google.com/open?id=1Uq5ArdynNUk6ymbrBAcbFU9zbzH1eD3t Spherical Elementary Currents and Mid/Low Latitude Data Availability]<br />
*Walk-ins TBD (Amy Keesee/Mike Coughlin,...)<br />
<br />
<br />
== August 2020 Virtual Discussion: Ground Magnetometer Measurements for Heliophysics Research and Space Weather Monitoring ==<br />
<br />
Friday, 7 August, 1500-1630 EDT<br />
<br />
[https://drive.google.com/file/d/1uQ18wVmQC9de6zGn8wXVmXHvkomQPP63/view?usp=sharing Meeting Summary and Community Feedback from Google Form]<br />
<br />
Discussion from this meeting and previous meetings was summarized in this [https://drive.google.com/file/d/1-lrglV9h7OneMK8XK0yjnPk3XhhMMMNg/view?usp=sharing Heliophysics 2050 white paper].<br />
<br />
Invited Speakers<br />
* Syau-Yun Hsieh – [https://drive.google.com/file/d/1nRB6Xjc8F4tyGDtFHSoH6Tr3Kxh8hnkq/view?usp=sharing SMILE mission ground-based support]<br />
* Enrico Camporeale – [https://drive.google.com/file/d/1JiQTM6I4q9TIcEYDlHSfWwM1nkwaLjNS/view?usp=sharing Long-term continuous magnetometer data for geomagnetic activity prediction using machine learning]<br />
* Slava Merkin – [https://drive.google.com/file/d/1-nALz_h5IUMtUPPZKGQh3KNHS-GxbBqx/view?usp=sharing What is required of global magnetosphere-ionosphere-thermosphere models to predict ground magnetic perturbations]<br />
<br />
Project Updates<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/15fE4UXOXYYjACtDilek9s1DDd8h9ODho/view?usp=sharing SuperMAG]<br />
* Michelle Salzano, [https://drive.google.com/file/d/12fI2yM-q_fw-4-4cN_8Nsp3oECtohjPh/view?usp=sharing MICA]<br />
* Josh Rigler, [https://drive.google.com/file/d/1aYjQcO-56TyNB0U97bobyRVsu1D05iJo/view?usp=sharing USGS] <br />
* Jennifer Gannon, [https://drive.google.com/file/d/17KkpAGoV1OwOAsi8n6x3fTF2q6xk_CNV/view?usp=sharing MagStar]<br />
* Chuck Smith, [https://drive.google.com/file/d/1VuUgOTyFrrBxuvxmdbJoVgYeyEmAUgIw/view?usp=sharing Space Weather Underground]<br />
* Endawoke Yizengaw, iMAGS<br />
* Peter Chi, [https://drive.google.com/file/d/1CX26PkNjz_8mFhrmqX14ZxE1m8eO-Rw3/view?usp=sharing SMART]<br />
* Mark Moldwin, [https://drive.google.com/file/d/1zrSgS7iImyWW7rlXWtqheU4gWOLUS3LW/view?usp=sharing New Ground Mag and TEC/GPS system]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1thUuT5pZqMjWI4xR5ytT8IvXSRpBl72c/view?usp=sharing MACCS]<br />
* Don Hampton, [https://drive.google.com/file/d/1DQyBge17GT9r7Vjvjp5LYXio9yGUkLnU/view?usp=sharing GIMA]<br />
* Hyomin Kim, AGO<br />
* Mike Hartinger, [https://drive.google.com/file/d/1OArNCvEEsFdXwi7qmz9_WNQskhcRqBGW/view?usp=sharing AALPIP]<br />
<br />
== February 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research ==<br />
<br />
Thursday, 4 February, 1100-1230 US Eastern Time<br />
<br />
This virtual meeting will begin with an invited talk from Gary Egbert on current/future applications of ground magnetometers to geophysics research, including magnetotellurics research relevant to Heliophysics/GIC. This continues a series of discussions intended to gather feedback for the upcoming Heliophysics Decadal Survey.<br />
<br />
The rest of the meeting will be for updates from SuperMAG and individual magnetometer networks, NSF announcements, and discussion of magnetometer digital object identifiers.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
[https://agu.confex.com/agu/fm20/meetingapp.cgi/Paper/685551 Link] to Gary Egbert's 2020 AGU presentation, "Modeling Diurnal Variation Magnetic Fields for Mantle Induction Studies"<br />
<br />
* 1100-1105 Mike Hartinger, [https://drive.google.com/file/d/1FQUYC_Q0F3I97RAYrOsCN_piy9cu8OcG/view?usp=sharing Introduction and Updates on Digital Object Identifiers]<br />
* 1105-1125 Gary Egbert, [https://drive.google.com/file/d/1fvp4QiW5BpPxtlmopLaPxKp-x9SUX2Wx/view?usp=sharing Current and Future Applications of Ground Magnetometers to Geophysics Research]<br />
* 1125-1135 Jennifer Gannon, [https://drive.google.com/file/d/1AL3NasABl5eDSE-Gh71-MTcR8BuG-PpH/view?usp=sharing MagStar]<br />
* 1135-1145 Josh Rigler / Anna Kelbert, USGS Updates<br />
* 1145-1155 Whitham Reeve, [https://drive.google.com/file/d/1TUetaa2wE7W_b2-h0v3q287B0h6F8LzA/view?usp=sharing SAM-III]<br />
* 1155-1205 Rob Barnes / Matt Potter, [https://drive.google.com/file/d/1xXunj9lafw2m5C3AdDBHi6ZqTPpU-Jtf/view?usp=sharing SuperMAG Updates]<br />
* 1205-1215 [https://drive.google.com/file/d/1YDZB7mhG8rZS5EqzRIax4AvCL2wmm6q7/view?usp=sharing Collaboration tools and NSF opportunities]<br />
* 1215-1230 Additional Brief Project Updates: [https://drive.google.com/file/d/1R-SetUGvFfZyA0emtZtOxZ3WbjXXF2BN/view?usp=sharing MICA], [https://drive.google.com/file/d/1Z62YCvAGkvF2lJmHLAJOG3qtlFvYs09P/view?usp=sharing MACCS], [https://drive.google.com/file/d/1THwB7Cq0K5hhPhY_3BRh9R724FwXssD-/view?usp=sharing NJIT], [https://drive.google.com/file/d/17XYtKyofyw_1uRc1T69K2l7Qxiiccyau/view?usp=sharing AALPIP]<br />
<br />
== July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey ==<br />
<br />
Thursday, 8 July, 1200-1330 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey. The discussion began with several presentations related to open magnetometer science questions and infrastructure. The rest of the meeting was for open discussion on topics for magnetometer-related white papers for the decadal survey.<br />
<br />
[https://drive.google.com/file/d/1yEqAe-CuK0XQBLiP5vsrhEAg3LhRaIui/view?usp=sharing Meeting notes]<br />
<br />
* Mike Hartinger, [https://drive.google.com/file/d/1FVolkY5xVn4DeL_3TFQmLWIpcdl6vKHF/view?usp=sharing Overview of the Meeting, NSF Opportunities]<br />
* Adam Schultz, [https://drive.google.com/file/d/1iVcUlawbmcbkhyVZLdaLp1s-_f8QSKm7/view?usp=sharing Improving Situational Awareness of ground-level EM fields]<br />
* Dan Schneider, [https://drive.google.com/file/d/1KGiHVAEQkynAkKeqYFBwV0ynrrMAetke/view?usp=sharing QuakeFinder: Induction Coil Magnetometer Array]<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/1G4MGyKsbCIdBhNU0e3hoNqeA7HP_uZsD/view?usp=sharing SuperMAG news]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1pNoWfpl8XyaQ5qtKX1nMXJrzaxX3sIkk/view?usp=sharing Unresolved issues in MPE-GIC studies]<br />
<br />
== October 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (1) ==<br />
<br />
Thursday, 19 October, 1400-1530 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July 2021. This was a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== February 2022 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (2) ==<br />
<br />
Monday, 7 February, 1600-1700 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July and October 2021. The meeting started with a [https://drive.google.com/file/d/1TAjZPnhS60InWkukMMrVQh4rxzeZo0hd/view?usp=sharing presentation] discussing upcoming meetings and other announcements related to the Decadal Survey as well as plans for an over-arching ground magnetometer white paper. The remaining time was for a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== 2022 GEM Workshop meeting ==<br />
<br />
Monday, 20 June, 1030-1200 US Hawaii Time, Stingray room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2022 GEM workshop. The session will begin with an introduction to both groups followed by an invited talk by Dr. Chigomezyo Ngwira on geomagnetically induced currents and geomagnetic disturbances. The remainder of the session will be for discussion of Solar and Space Physics Decadal Survey white papers related to ground magnetometers and short magnetometer network updates.<br />
<br />
* 1030-1035 - Mike Hartinger, Overview of the US Ground Magnetometer Group<br />
* 1035-1040 - Xueling Shi, Overview of the new GEM GIC focus group<br />
* 1040-1100 - Chigomezyo Ngwira, Review of Geomagnetic Disturbances and GIC<br />
* 1100-1105 - Mike Hartinger, GMAG group decadal survey discussions overview<br />
* 1105-1110 - Mike Hartinger, Overarching magnetometer white paper<br />
* 1110-1115 - Jesper Gjerloev, Decadal survey white paper<br />
* 1115-1145 - General Q+A and discussion of decadal survey white paper topics<br />
* 1145-1200 - Magnetometer Network/SuperMAG Updates (1-slide/1-minute each): Jesper Gjerloev (SuperMAG), Shane Coyle (AALPIP), Shane Coyle (GPS Rollover), Michelle Salzano (MICA-S), Hyomin Kim (HamSCI magnetometer), Hyomin Kim (Deep polar cap Antarctic network), Josh Rigler (USGS magnetometer network), Mark Engebretson (MACCS - presenting virtually), Q+A<br />
<br />
== 2022 mini-GEM Workshop ==<br />
<br />
Sunday, 11 December, hybrid meeting<br />
<br />
The US magnetometer group participated in two joint sessions with the GEM GIC, MPEC, and IHMIC focus groups at the 2022 mini-GEM workshop. See the [https://gem.epss.ucla.edu/mediawiki/index.php/FG:_Understanding_the_causes_of_geomagnetic_disturbances_in_geospace_for_hazard_analysis_on_geomagnetically_induced_currents#2022_mini-GEM_Workshop_Meeting GIC FG wiki page] for details on the schedule.<br />
<br />
== 2023 GEM Workshop meeting ==<br />
<br />
Wednesday, 14 June, 1330-1500 US Pacific Time, Pacific A room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2023 GEM workshop.<br />
<br />
* 1330-1335 - Mike Hartinger, Overview of the US Ground Magnetometer Group and Recent Updates<br />
* 1335-1345 - Chia-Lin Huang, NSF updates<br />
* 1345-1350 - Jesper Gjerloev, SuperMAG updates<br />
* 1350-1355 - Peter Chi, ULTIMA updates<br />
* 1355-1400 - Discussion<br />
* 1400-1405 - Peter Chi, SMART network updates<br />
* 1405-1410 - Doga Ozturk, UAF SWUG Data Center<br />
* 1410-1415 - Zhonghua Xu, AALPIP network update<br />
* 1415-1420 - Hyomin Kim, NJIT update Antarctic geospace measurements<br />
* 1420-1425 - Mark Engebretson (virtual), MACCS network update and relevance to GDC/SMILE<br />
* 1425-1430 - Josh Rigler (virtual), USGS updates (observatories and variometers)<br />
* 1430-1435 - Mike Hartinger (for Shane Coyle), magget: A python module for finding and digesting ground magnetometer data from many modular data sources<br />
* 1435-1440 - Marc Lessard, Magnetic Induction Coil Array<br />
* 1440-1500 - General Q+A and discussion<br />
<br />
== 2023 mini-GEM Workshop ==<br />
<br />
Sunday, 10 December, 1530-1700 US Pacific Time, Gold Rush A room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2023 mini-GEM workshop. The session will begin with an introduction to both groups and a summary of recent activities, followed by updates from NSF and discussion of international collaborations involving ground magnetometers including International Polar Year. The rest of the session will be for SuperMAG updates, discussion of ground magnetometer campaigns with satellite missions (SMILE, GDC, EZE,…), and data sharing.<br />
<br />
* 1530-1535 - Mike Hartinger and Xueling Shi, GMAG board overview / Planned GIC FG activities<br />
* 1535-1545 - Chia-Lin Huang, NSF updates<br />
* 1545-1550 - Zhonghua Xu, Recap from GEOSCOPR workshop (Vladimir Papitashvili also available for Q+A)<br />
* 1550-1555 - Zhonghua Xu and Mike Hartinger, Early plans for ground magnetometers in the International Polar Year: IASC feedback<br />
* 1555-1600 - Lucilla Alfonsi (presented by Mike Hartinger), International Collaboration - SCAR AGATA <br />
* 1600-1610 - Discussion<br />
* 1610-1615 - Jesper Gjerloev, SuperMAG update<br />
* 1615-1620 - Jesper Gjerloev, EZIE mission coordination with ground-based measurements, including magnetometers<br />
* 1620-1625 - Bea Gallardo-Lacourt, GDC mission coordination with ground-based measurements, including magnetometers<br />
* 1625-1630 - Jennifer Carter, SMILE mission coordination with ground-based measurements, including magnetometers<br />
* 1630-1635 - Jennifer Carter and Maria-Theresia Walach, SMILE mission winter campaign planning<br />
* 1635-1640 - Alexander Drozdov, Accessing Magnetometers from Seismology Databases via SPEDAS software<br />
* 1640-1700 - General Q+A and discussion</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=US_Ground-based_magnetometer_arrays&diff=6309US Ground-based magnetometer arrays2023-12-04T18:24:25Z<p>Mdhartin: /* 2023 mini-GEM Workshop */</p>
<hr />
<div>=== US Ground Magnetometer Board ===<br />
<br />
This wiki page and related ground magnetometer board meetings are part of a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts. For more information about the current state and future of ground magnetometer networks in support of space weather monitoring and research, see this article in [https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017SW001718 Space Weather]. <br />
<br />
''Current Ground Magnetometer Board Members:''<br />
* Peter Chi<br />
* Mark Engebretson, (former chair)<br />
* Jennifer Gannon<br />
* Jesper Gjerloev<br />
* Michael Hartinger, (current chair, mhartinger@spacescience.org)<br />
* Hyomin Kim<br />
* Gang Lu<br />
* Josh Rigler<br />
* Michelle Salzano<br />
* Howard Singer<br />
* Endawoke Yizengaw<br />
<br />
''Former Ground Magnetometer Board Members:''<br />
* Carol Finn<br />
* Efthyia Zesta<br />
<br />
=== US-Sponsored Ground-Based Magnetometer Arrays and Programs* ===<br />
<br />
{| class="wikitable" style="width: 50%; height: 4em;"<br />
|-<br />
| Array || Location || Instruments || Manufacturer || No. of Locations<br />
|-<br />
| AAL-PIP || Antarctica || Fluxgate || Lviv Centre ISR || 6<br />
|-<br />
| AAL-PIP || Antarctica || Induction Coil || UNH || 4<br />
|-<br />
| AMBER || Africa || Fluxgate || UCLA || 7<br />
|-<br />
| AMBER || South America || Fluxgate || UCLA || 2<br />
|-<br />
| AMBER || East Asia || Fluxgate || UCLA || 4<br />
|-<br />
| Falcon || Continental US || Fluxgate || UCLA || 11<br />
|-<br />
| GIMA || Alaska || Fluxgate || Narod || 9<br />
|-<br />
| Jicamarca || South America || Fluxgate || UCLA || 2<br />
|-<br />
| LISN || South America || Fluxgate || Custom/Jicamarca || 6<br />
|-<br />
| MACCS || Arctic Canada || Fluxgate || Narod || 8<br />
|-<br />
| McMAC || Continental US & Mexico || Fluxgate || UCLA || 9<br />
|-<br />
| MEASURE || Continental US || Fluxgate || UCLA || 6<br />
|-<br />
| SAMBA || South America & Antarctica || Fluxgate || UCLA || 12<br />
|-<br />
| THEMIS || Continental US & Canada || Fluxgate || UCLA || 24<br />
|-<br />
| US Geological Survey || US & Territories || Fluxgate || Narod, Technical Univ of Denmark || 11<br />
|-<br />
| NJIT / AGO || Antarctica || Fluxgate || Bell Labs || 7<br />
|-<br />
| NJIT / AGO || Antarctica || Induction Coil || Tohoku University || 5<br />
|-<br />
| MICA || Antarctica || Induction Coil || UNH || 5<br />
|-<br />
| MICA || Arctic Canada || Induction Coil || UNH || 4<br />
|-<br />
| MICA || Svalbard || Induction Coil || UNH || 4<br />
|}<br />
<br />
*Some locations listed here have instruments that are not currently operating.<br />
<br />
=== Ground Magnetometer Data ===<br />
<br />
[http://supermag.jhuapl.edu/ SuperMAG]<br />
<br />
[https://www.usgs.gov/natural-hazards/geomagnetism/data-tools USGS Geomagnetism Program]<br />
<br />
[https://www.intermagnet.org/ INTERMAGNET]<br />
<br />
[http://vmo.igpp.ucla.edu/data1/SECS/Quicklook/ Spherical Elementary Currents] from James Weygand<br />
<br />
[http://themis.ssl.berkeley.edu/gmag/gmag_list.php?selyear=4000&selmonth=13&smap=on&sinfo=on&saelist=on&ae=on THEMIS]<br />
<br />
[https://cdaweb.gsfc.nasa.gov/index.html/ NASA CDAWeb]<br />
<br />
[http://mirl.unh.edu/ulf_status.html UNH Magnetic Induction Coil Array (MICA)]<br />
<br />
[http://search.iugonet.org/list.jsp IUGONET]<br />
<br />
=== Digital Object Identifiers for Ground Magnetometer Data ===<br />
<br />
Digital Object Identifiers (DOI) allow authors to cite data products just as they refer to papers. This is becoming a requirement of many journals, as it assures that the specific data used in a publication are findable and accessible. The DOI provides a permanent identifier (PID) for the data, remaining unchanged even if the data are moved to another archive. The "creators" (authors) of the data must link the DOI to a "landing page" that provides details about the data and methods for accessing them. Our group recommends that each ground magnetometer network generate DOIs for their datasets, at minimum one DOI for their original measurements (i.e., before filtering and other types of processing are performed).<br />
<br />
As a member of the [https://datacite.org DataCite organization], NASA Heliophysics (HP) can "mint" DOIs for ground magnetometer datasets. NASA HP is providing an easy means to assign DOIs to datasets using the HP Digital Resource Registry (HDRR) by providing landing pages for datasets based on their "SPASE" resource descriptions. As an example, any users of NASA's OMNI dataset can now use https://doi.org/10.48322/1shr-ht18 for the hourly dataset, and other DOIs for other sets, discoverable by a search with the Heliophysics Data Portal (HDP; https://heliophysicsdata.gsfc.nasa.gov; look for "omni" in the "observatory" entry at the left). More details for DOI initiation for resources in the HDP can be found [https://hpde.gsfc.nasa.gov/DOI_Initiative_October_2020.pdf here]. For further information, and especially to start the process of registering DOIs, contact James Weygand (jweygand@igpp.ucla.edu or jweygand@epss.ucla.edu).<br />
<br />
As noted above, a SPASE resource description is required for each magnetometer dataset to mint a DOI. Here's an example for the [https://drive.google.com/file/d/1MxEDFAa_grGuCdID9vwK9pRzkzH7FQYR/view?usp=sharing MACCS magnetometer network 5s measurements].<br />
<br />
== 2019 GEM workshop meeting ==<br />
<br />
The ground magnetometer advisory board was formed in 2016 as a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts.<br />
<br />
We invite the GEM community to attend our meeting on Monday, June 24 at 1:30 PM, where we’ll discuss updates on all the above items. Later this year, we’ll add new members to the advisory board who either operate ground magnetometers or use magnetometer data to support their scientific investigations and/or space weather monitoring efforts. If you’re interested in learning more about this opportunity, please attend this GEM meeting or contact Mike Hartinger (mdhartin@vt.edu).<br />
<br />
Monday, 24 June, 1:30 PM, Location: Santa Fe<br />
*Mike Hartinger - Updates on ground magnetometer advisory board activities<br />
*Mark Engebretson - Summary of information gathering report<br />
*Lisa Winter - NSF updates<br />
*Hyomin Kim - DRUM/DASI updates and future plans, discussion<br />
*Jesper Gjerloev - SuperMAG updates<br />
*Josh Rigler - USGS updates, updates from other magnetometer arrays<br />
<br />
== 2019 mini-GEM workshop meeting ==<br />
<br />
Sunday, 8 December, 1200-1330, Location: Oregon Room<br />
*Mike Hartinger - [https://drive.google.com/file/d/1f3nDkQU4Red2gBLe_I5z_z0LOTHRyfN8/view?usp=sharing Introduction and Overview of Advisory Board activities, updates on DOI and new instruments]<br />
*Howard Singer - [https://drive.google.com/file/d/16poHzPvIM60z9Z7E_qXHznRGL80cjRRY/view?usp=sharing How ground magnetometers are currently incorporated into forecasts at SWPC, how they could be incorporated in the future]<br />
*Jennifer Gannon - How ground magnetometers can best be used to monitor/investigate GIC, utility-grade magnetometers<br />
*Endawoke Yizengaw - Open discussion with NSF, DRUM/DASI future proposal plans<br />
*Anna Kelbert - [https://drive.google.com/open?id=1XFHxruhasIRvZ3JDGtVtExZE6d87tM0X USGS Geomagnetism Program updates]<br />
*Peter Chi - update on ULTIMA activities / international collaboration<br />
*James Weygand - [https://drive.google.com/open?id=1Uq5ArdynNUk6ymbrBAcbFU9zbzH1eD3t Spherical Elementary Currents and Mid/Low Latitude Data Availability]<br />
*Walk-ins TBD (Amy Keesee/Mike Coughlin,...)<br />
<br />
<br />
== August 2020 Virtual Discussion: Ground Magnetometer Measurements for Heliophysics Research and Space Weather Monitoring ==<br />
<br />
Friday, 7 August, 1500-1630 EDT<br />
<br />
[https://drive.google.com/file/d/1uQ18wVmQC9de6zGn8wXVmXHvkomQPP63/view?usp=sharing Meeting Summary and Community Feedback from Google Form]<br />
<br />
Discussion from this meeting and previous meetings was summarized in this [https://drive.google.com/file/d/1-lrglV9h7OneMK8XK0yjnPk3XhhMMMNg/view?usp=sharing Heliophysics 2050 white paper].<br />
<br />
Invited Speakers<br />
* Syau-Yun Hsieh – [https://drive.google.com/file/d/1nRB6Xjc8F4tyGDtFHSoH6Tr3Kxh8hnkq/view?usp=sharing SMILE mission ground-based support]<br />
* Enrico Camporeale – [https://drive.google.com/file/d/1JiQTM6I4q9TIcEYDlHSfWwM1nkwaLjNS/view?usp=sharing Long-term continuous magnetometer data for geomagnetic activity prediction using machine learning]<br />
* Slava Merkin – [https://drive.google.com/file/d/1-nALz_h5IUMtUPPZKGQh3KNHS-GxbBqx/view?usp=sharing What is required of global magnetosphere-ionosphere-thermosphere models to predict ground magnetic perturbations]<br />
<br />
Project Updates<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/15fE4UXOXYYjACtDilek9s1DDd8h9ODho/view?usp=sharing SuperMAG]<br />
* Michelle Salzano, [https://drive.google.com/file/d/12fI2yM-q_fw-4-4cN_8Nsp3oECtohjPh/view?usp=sharing MICA]<br />
* Josh Rigler, [https://drive.google.com/file/d/1aYjQcO-56TyNB0U97bobyRVsu1D05iJo/view?usp=sharing USGS] <br />
* Jennifer Gannon, [https://drive.google.com/file/d/17KkpAGoV1OwOAsi8n6x3fTF2q6xk_CNV/view?usp=sharing MagStar]<br />
* Chuck Smith, [https://drive.google.com/file/d/1VuUgOTyFrrBxuvxmdbJoVgYeyEmAUgIw/view?usp=sharing Space Weather Underground]<br />
* Endawoke Yizengaw, iMAGS<br />
* Peter Chi, [https://drive.google.com/file/d/1CX26PkNjz_8mFhrmqX14ZxE1m8eO-Rw3/view?usp=sharing SMART]<br />
* Mark Moldwin, [https://drive.google.com/file/d/1zrSgS7iImyWW7rlXWtqheU4gWOLUS3LW/view?usp=sharing New Ground Mag and TEC/GPS system]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1thUuT5pZqMjWI4xR5ytT8IvXSRpBl72c/view?usp=sharing MACCS]<br />
* Don Hampton, [https://drive.google.com/file/d/1DQyBge17GT9r7Vjvjp5LYXio9yGUkLnU/view?usp=sharing GIMA]<br />
* Hyomin Kim, AGO<br />
* Mike Hartinger, [https://drive.google.com/file/d/1OArNCvEEsFdXwi7qmz9_WNQskhcRqBGW/view?usp=sharing AALPIP]<br />
<br />
== February 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research ==<br />
<br />
Thursday, 4 February, 1100-1230 US Eastern Time<br />
<br />
This virtual meeting will begin with an invited talk from Gary Egbert on current/future applications of ground magnetometers to geophysics research, including magnetotellurics research relevant to Heliophysics/GIC. This continues a series of discussions intended to gather feedback for the upcoming Heliophysics Decadal Survey.<br />
<br />
The rest of the meeting will be for updates from SuperMAG and individual magnetometer networks, NSF announcements, and discussion of magnetometer digital object identifiers.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
[https://agu.confex.com/agu/fm20/meetingapp.cgi/Paper/685551 Link] to Gary Egbert's 2020 AGU presentation, "Modeling Diurnal Variation Magnetic Fields for Mantle Induction Studies"<br />
<br />
* 1100-1105 Mike Hartinger, [https://drive.google.com/file/d/1FQUYC_Q0F3I97RAYrOsCN_piy9cu8OcG/view?usp=sharing Introduction and Updates on Digital Object Identifiers]<br />
* 1105-1125 Gary Egbert, [https://drive.google.com/file/d/1fvp4QiW5BpPxtlmopLaPxKp-x9SUX2Wx/view?usp=sharing Current and Future Applications of Ground Magnetometers to Geophysics Research]<br />
* 1125-1135 Jennifer Gannon, [https://drive.google.com/file/d/1AL3NasABl5eDSE-Gh71-MTcR8BuG-PpH/view?usp=sharing MagStar]<br />
* 1135-1145 Josh Rigler / Anna Kelbert, USGS Updates<br />
* 1145-1155 Whitham Reeve, [https://drive.google.com/file/d/1TUetaa2wE7W_b2-h0v3q287B0h6F8LzA/view?usp=sharing SAM-III]<br />
* 1155-1205 Rob Barnes / Matt Potter, [https://drive.google.com/file/d/1xXunj9lafw2m5C3AdDBHi6ZqTPpU-Jtf/view?usp=sharing SuperMAG Updates]<br />
* 1205-1215 [https://drive.google.com/file/d/1YDZB7mhG8rZS5EqzRIax4AvCL2wmm6q7/view?usp=sharing Collaboration tools and NSF opportunities]<br />
* 1215-1230 Additional Brief Project Updates: [https://drive.google.com/file/d/1R-SetUGvFfZyA0emtZtOxZ3WbjXXF2BN/view?usp=sharing MICA], [https://drive.google.com/file/d/1Z62YCvAGkvF2lJmHLAJOG3qtlFvYs09P/view?usp=sharing MACCS], [https://drive.google.com/file/d/1THwB7Cq0K5hhPhY_3BRh9R724FwXssD-/view?usp=sharing NJIT], [https://drive.google.com/file/d/17XYtKyofyw_1uRc1T69K2l7Qxiiccyau/view?usp=sharing AALPIP]<br />
<br />
== July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey ==<br />
<br />
Thursday, 8 July, 1200-1330 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey. The discussion began with several presentations related to open magnetometer science questions and infrastructure. The rest of the meeting was for open discussion on topics for magnetometer-related white papers for the decadal survey.<br />
<br />
[https://drive.google.com/file/d/1yEqAe-CuK0XQBLiP5vsrhEAg3LhRaIui/view?usp=sharing Meeting notes]<br />
<br />
* Mike Hartinger, [https://drive.google.com/file/d/1FVolkY5xVn4DeL_3TFQmLWIpcdl6vKHF/view?usp=sharing Overview of the Meeting, NSF Opportunities]<br />
* Adam Schultz, [https://drive.google.com/file/d/1iVcUlawbmcbkhyVZLdaLp1s-_f8QSKm7/view?usp=sharing Improving Situational Awareness of ground-level EM fields]<br />
* Dan Schneider, [https://drive.google.com/file/d/1KGiHVAEQkynAkKeqYFBwV0ynrrMAetke/view?usp=sharing QuakeFinder: Induction Coil Magnetometer Array]<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/1G4MGyKsbCIdBhNU0e3hoNqeA7HP_uZsD/view?usp=sharing SuperMAG news]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1pNoWfpl8XyaQ5qtKX1nMXJrzaxX3sIkk/view?usp=sharing Unresolved issues in MPE-GIC studies]<br />
<br />
== October 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (1) ==<br />
<br />
Thursday, 19 October, 1400-1530 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July 2021. This was a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== February 2022 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (2) ==<br />
<br />
Monday, 7 February, 1600-1700 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July and October 2021. The meeting started with a [https://drive.google.com/file/d/1TAjZPnhS60InWkukMMrVQh4rxzeZo0hd/view?usp=sharing presentation] discussing upcoming meetings and other announcements related to the Decadal Survey as well as plans for an over-arching ground magnetometer white paper. The remaining time was for a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== 2022 GEM Workshop meeting ==<br />
<br />
Monday, 20 June, 1030-1200 US Hawaii Time, Stingray room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2022 GEM workshop. The session will begin with an introduction to both groups followed by an invited talk by Dr. Chigomezyo Ngwira on geomagnetically induced currents and geomagnetic disturbances. The remainder of the session will be for discussion of Solar and Space Physics Decadal Survey white papers related to ground magnetometers and short magnetometer network updates.<br />
<br />
* 1030-1035 - Mike Hartinger, Overview of the US Ground Magnetometer Group<br />
* 1035-1040 - Xueling Shi, Overview of the new GEM GIC focus group<br />
* 1040-1100 - Chigomezyo Ngwira, Review of Geomagnetic Disturbances and GIC<br />
* 1100-1105 - Mike Hartinger, GMAG group decadal survey discussions overview<br />
* 1105-1110 - Mike Hartinger, Overarching magnetometer white paper<br />
* 1110-1115 - Jesper Gjerloev, Decadal survey white paper<br />
* 1115-1145 - General Q+A and discussion of decadal survey white paper topics<br />
* 1145-1200 - Magnetometer Network/SuperMAG Updates (1-slide/1-minute each): Jesper Gjerloev (SuperMAG), Shane Coyle (AALPIP), Shane Coyle (GPS Rollover), Michelle Salzano (MICA-S), Hyomin Kim (HamSCI magnetometer), Hyomin Kim (Deep polar cap Antarctic network), Josh Rigler (USGS magnetometer network), Mark Engebretson (MACCS - presenting virtually), Q+A<br />
<br />
== 2022 mini-GEM Workshop ==<br />
<br />
Sunday, 11 December, hybrid meeting<br />
<br />
The US magnetometer group participated in two joint sessions with the GEM GIC, MPEC, and IHMIC focus groups at the 2022 mini-GEM workshop. See the [https://gem.epss.ucla.edu/mediawiki/index.php/FG:_Understanding_the_causes_of_geomagnetic_disturbances_in_geospace_for_hazard_analysis_on_geomagnetically_induced_currents#2022_mini-GEM_Workshop_Meeting GIC FG wiki page] for details on the schedule.<br />
<br />
== 2023 GEM Workshop meeting ==<br />
<br />
Wednesday, 14 June, 1330-1500 US Pacific Time, Pacific A room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2023 GEM workshop.<br />
<br />
* 1330-1335 - Mike Hartinger, Overview of the US Ground Magnetometer Group and Recent Updates<br />
* 1335-1345 - Chia-Lin Huang, NSF updates<br />
* 1345-1350 - Jesper Gjerloev, SuperMAG updates<br />
* 1350-1355 - Peter Chi, ULTIMA updates<br />
* 1355-1400 - Discussion<br />
* 1400-1405 - Peter Chi, SMART network updates<br />
* 1405-1410 - Doga Ozturk, UAF SWUG Data Center<br />
* 1410-1415 - Zhonghua Xu, AALPIP network update<br />
* 1415-1420 - Hyomin Kim, NJIT update Antarctic geospace measurements<br />
* 1420-1425 - Mark Engebretson (virtual), MACCS network update and relevance to GDC/SMILE<br />
* 1425-1430 - Josh Rigler (virtual), USGS updates (observatories and variometers)<br />
* 1430-1435 - Mike Hartinger (for Shane Coyle), magget: A python module for finding and digesting ground magnetometer data from many modular data sources<br />
* 1435-1440 - Marc Lessard, Magnetic Induction Coil Array<br />
* 1440-1500 - General Q+A and discussion<br />
<br />
== 2023 mini-GEM Workshop ==<br />
<br />
Sunday, 10 December, 1530-1700 US Pacific Time, Gold Rush A room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2023 mini-GEM workshop. The session will begin with an introduction to both groups and a summary of recent activities, followed by updates from NSF and discussion of international collaborations involving ground magnetometers including International Polar Year. The rest of the session will be for SuperMAG updates, discussion of ground magnetometer campaigns with satellite missions (SMILE, GDC, EZE,…), and data sharing.<br />
<br />
* 1530-1535 - Mike Hartinger and Xueling Shi, GMAG board overview / Planned GIC FG activities<br />
* 1535-1545 - Chia-Lin Huang, NSF updates<br />
* 1545-1550 - Zhonghua Xu, Recap from GEOSCOPR workshop (Vladimir Papitashvili also available for Q+A)<br />
* 1550-1555 - Zhonghua Xu and Mike Hartinger, Early plans for ground magnetometers in the International Polar Year: IASC feedback<br />
* 1555-1600 - Lucilla Alfonsi (presented by Mike Hartinger), International Collaboration - SCAR AGATA <br />
* 1600-1610 - Discussion<br />
* 1610-1615 - Jesper Gjerloev, SuperMAG update<br />
* 1615-1620 - Jesper Gjerloev, EZIE mission coordination with ground-based measurements, including magnetometers<br />
* 1620-1625 - Bea Gallardo-Lacourt, GDC mission coordination with ground-based measurements, including magnetometers<br />
* 1625-1630 - Jennifer Carter, SMILE mission coordination with ground-based measurements, including magnetometers<br />
* 1630-1635 - Jennifer Carter and Maria-Theresia Walach, SMILE mission winter campaign planning<br />
* 1635-1640 - Alexander Drozdov, Accessing Magnetometers from Seismology Databases via SPEDAS software<br />
* 1640-1700 - General Q+A and discussion</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=US_Ground-based_magnetometer_arrays&diff=6308US Ground-based magnetometer arrays2023-12-04T18:21:20Z<p>Mdhartin: </p>
<hr />
<div>=== US Ground Magnetometer Board ===<br />
<br />
This wiki page and related ground magnetometer board meetings are part of a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts. For more information about the current state and future of ground magnetometer networks in support of space weather monitoring and research, see this article in [https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017SW001718 Space Weather]. <br />
<br />
''Current Ground Magnetometer Board Members:''<br />
* Peter Chi<br />
* Mark Engebretson, (former chair)<br />
* Jennifer Gannon<br />
* Jesper Gjerloev<br />
* Michael Hartinger, (current chair, mhartinger@spacescience.org)<br />
* Hyomin Kim<br />
* Gang Lu<br />
* Josh Rigler<br />
* Michelle Salzano<br />
* Howard Singer<br />
* Endawoke Yizengaw<br />
<br />
''Former Ground Magnetometer Board Members:''<br />
* Carol Finn<br />
* Efthyia Zesta<br />
<br />
=== US-Sponsored Ground-Based Magnetometer Arrays and Programs* ===<br />
<br />
{| class="wikitable" style="width: 50%; height: 4em;"<br />
|-<br />
| Array || Location || Instruments || Manufacturer || No. of Locations<br />
|-<br />
| AAL-PIP || Antarctica || Fluxgate || Lviv Centre ISR || 6<br />
|-<br />
| AAL-PIP || Antarctica || Induction Coil || UNH || 4<br />
|-<br />
| AMBER || Africa || Fluxgate || UCLA || 7<br />
|-<br />
| AMBER || South America || Fluxgate || UCLA || 2<br />
|-<br />
| AMBER || East Asia || Fluxgate || UCLA || 4<br />
|-<br />
| Falcon || Continental US || Fluxgate || UCLA || 11<br />
|-<br />
| GIMA || Alaska || Fluxgate || Narod || 9<br />
|-<br />
| Jicamarca || South America || Fluxgate || UCLA || 2<br />
|-<br />
| LISN || South America || Fluxgate || Custom/Jicamarca || 6<br />
|-<br />
| MACCS || Arctic Canada || Fluxgate || Narod || 8<br />
|-<br />
| McMAC || Continental US & Mexico || Fluxgate || UCLA || 9<br />
|-<br />
| MEASURE || Continental US || Fluxgate || UCLA || 6<br />
|-<br />
| SAMBA || South America & Antarctica || Fluxgate || UCLA || 12<br />
|-<br />
| THEMIS || Continental US & Canada || Fluxgate || UCLA || 24<br />
|-<br />
| US Geological Survey || US & Territories || Fluxgate || Narod, Technical Univ of Denmark || 11<br />
|-<br />
| NJIT / AGO || Antarctica || Fluxgate || Bell Labs || 7<br />
|-<br />
| NJIT / AGO || Antarctica || Induction Coil || Tohoku University || 5<br />
|-<br />
| MICA || Antarctica || Induction Coil || UNH || 5<br />
|-<br />
| MICA || Arctic Canada || Induction Coil || UNH || 4<br />
|-<br />
| MICA || Svalbard || Induction Coil || UNH || 4<br />
|}<br />
<br />
*Some locations listed here have instruments that are not currently operating.<br />
<br />
=== Ground Magnetometer Data ===<br />
<br />
[http://supermag.jhuapl.edu/ SuperMAG]<br />
<br />
[https://www.usgs.gov/natural-hazards/geomagnetism/data-tools USGS Geomagnetism Program]<br />
<br />
[https://www.intermagnet.org/ INTERMAGNET]<br />
<br />
[http://vmo.igpp.ucla.edu/data1/SECS/Quicklook/ Spherical Elementary Currents] from James Weygand<br />
<br />
[http://themis.ssl.berkeley.edu/gmag/gmag_list.php?selyear=4000&selmonth=13&smap=on&sinfo=on&saelist=on&ae=on THEMIS]<br />
<br />
[https://cdaweb.gsfc.nasa.gov/index.html/ NASA CDAWeb]<br />
<br />
[http://mirl.unh.edu/ulf_status.html UNH Magnetic Induction Coil Array (MICA)]<br />
<br />
[http://search.iugonet.org/list.jsp IUGONET]<br />
<br />
=== Digital Object Identifiers for Ground Magnetometer Data ===<br />
<br />
Digital Object Identifiers (DOI) allow authors to cite data products just as they refer to papers. This is becoming a requirement of many journals, as it assures that the specific data used in a publication are findable and accessible. The DOI provides a permanent identifier (PID) for the data, remaining unchanged even if the data are moved to another archive. The "creators" (authors) of the data must link the DOI to a "landing page" that provides details about the data and methods for accessing them. Our group recommends that each ground magnetometer network generate DOIs for their datasets, at minimum one DOI for their original measurements (i.e., before filtering and other types of processing are performed).<br />
<br />
As a member of the [https://datacite.org DataCite organization], NASA Heliophysics (HP) can "mint" DOIs for ground magnetometer datasets. NASA HP is providing an easy means to assign DOIs to datasets using the HP Digital Resource Registry (HDRR) by providing landing pages for datasets based on their "SPASE" resource descriptions. As an example, any users of NASA's OMNI dataset can now use https://doi.org/10.48322/1shr-ht18 for the hourly dataset, and other DOIs for other sets, discoverable by a search with the Heliophysics Data Portal (HDP; https://heliophysicsdata.gsfc.nasa.gov; look for "omni" in the "observatory" entry at the left). More details for DOI initiation for resources in the HDP can be found [https://hpde.gsfc.nasa.gov/DOI_Initiative_October_2020.pdf here]. For further information, and especially to start the process of registering DOIs, contact James Weygand (jweygand@igpp.ucla.edu or jweygand@epss.ucla.edu).<br />
<br />
As noted above, a SPASE resource description is required for each magnetometer dataset to mint a DOI. Here's an example for the [https://drive.google.com/file/d/1MxEDFAa_grGuCdID9vwK9pRzkzH7FQYR/view?usp=sharing MACCS magnetometer network 5s measurements].<br />
<br />
== 2019 GEM workshop meeting ==<br />
<br />
The ground magnetometer advisory board was formed in 2016 as a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts.<br />
<br />
We invite the GEM community to attend our meeting on Monday, June 24 at 1:30 PM, where we’ll discuss updates on all the above items. Later this year, we’ll add new members to the advisory board who either operate ground magnetometers or use magnetometer data to support their scientific investigations and/or space weather monitoring efforts. If you’re interested in learning more about this opportunity, please attend this GEM meeting or contact Mike Hartinger (mdhartin@vt.edu).<br />
<br />
Monday, 24 June, 1:30 PM, Location: Santa Fe<br />
*Mike Hartinger - Updates on ground magnetometer advisory board activities<br />
*Mark Engebretson - Summary of information gathering report<br />
*Lisa Winter - NSF updates<br />
*Hyomin Kim - DRUM/DASI updates and future plans, discussion<br />
*Jesper Gjerloev - SuperMAG updates<br />
*Josh Rigler - USGS updates, updates from other magnetometer arrays<br />
<br />
== 2019 mini-GEM workshop meeting ==<br />
<br />
Sunday, 8 December, 1200-1330, Location: Oregon Room<br />
*Mike Hartinger - [https://drive.google.com/file/d/1f3nDkQU4Red2gBLe_I5z_z0LOTHRyfN8/view?usp=sharing Introduction and Overview of Advisory Board activities, updates on DOI and new instruments]<br />
*Howard Singer - [https://drive.google.com/file/d/16poHzPvIM60z9Z7E_qXHznRGL80cjRRY/view?usp=sharing How ground magnetometers are currently incorporated into forecasts at SWPC, how they could be incorporated in the future]<br />
*Jennifer Gannon - How ground magnetometers can best be used to monitor/investigate GIC, utility-grade magnetometers<br />
*Endawoke Yizengaw - Open discussion with NSF, DRUM/DASI future proposal plans<br />
*Anna Kelbert - [https://drive.google.com/open?id=1XFHxruhasIRvZ3JDGtVtExZE6d87tM0X USGS Geomagnetism Program updates]<br />
*Peter Chi - update on ULTIMA activities / international collaboration<br />
*James Weygand - [https://drive.google.com/open?id=1Uq5ArdynNUk6ymbrBAcbFU9zbzH1eD3t Spherical Elementary Currents and Mid/Low Latitude Data Availability]<br />
*Walk-ins TBD (Amy Keesee/Mike Coughlin,...)<br />
<br />
<br />
== August 2020 Virtual Discussion: Ground Magnetometer Measurements for Heliophysics Research and Space Weather Monitoring ==<br />
<br />
Friday, 7 August, 1500-1630 EDT<br />
<br />
[https://drive.google.com/file/d/1uQ18wVmQC9de6zGn8wXVmXHvkomQPP63/view?usp=sharing Meeting Summary and Community Feedback from Google Form]<br />
<br />
Discussion from this meeting and previous meetings was summarized in this [https://drive.google.com/file/d/1-lrglV9h7OneMK8XK0yjnPk3XhhMMMNg/view?usp=sharing Heliophysics 2050 white paper].<br />
<br />
Invited Speakers<br />
* Syau-Yun Hsieh – [https://drive.google.com/file/d/1nRB6Xjc8F4tyGDtFHSoH6Tr3Kxh8hnkq/view?usp=sharing SMILE mission ground-based support]<br />
* Enrico Camporeale – [https://drive.google.com/file/d/1JiQTM6I4q9TIcEYDlHSfWwM1nkwaLjNS/view?usp=sharing Long-term continuous magnetometer data for geomagnetic activity prediction using machine learning]<br />
* Slava Merkin – [https://drive.google.com/file/d/1-nALz_h5IUMtUPPZKGQh3KNHS-GxbBqx/view?usp=sharing What is required of global magnetosphere-ionosphere-thermosphere models to predict ground magnetic perturbations]<br />
<br />
Project Updates<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/15fE4UXOXYYjACtDilek9s1DDd8h9ODho/view?usp=sharing SuperMAG]<br />
* Michelle Salzano, [https://drive.google.com/file/d/12fI2yM-q_fw-4-4cN_8Nsp3oECtohjPh/view?usp=sharing MICA]<br />
* Josh Rigler, [https://drive.google.com/file/d/1aYjQcO-56TyNB0U97bobyRVsu1D05iJo/view?usp=sharing USGS] <br />
* Jennifer Gannon, [https://drive.google.com/file/d/17KkpAGoV1OwOAsi8n6x3fTF2q6xk_CNV/view?usp=sharing MagStar]<br />
* Chuck Smith, [https://drive.google.com/file/d/1VuUgOTyFrrBxuvxmdbJoVgYeyEmAUgIw/view?usp=sharing Space Weather Underground]<br />
* Endawoke Yizengaw, iMAGS<br />
* Peter Chi, [https://drive.google.com/file/d/1CX26PkNjz_8mFhrmqX14ZxE1m8eO-Rw3/view?usp=sharing SMART]<br />
* Mark Moldwin, [https://drive.google.com/file/d/1zrSgS7iImyWW7rlXWtqheU4gWOLUS3LW/view?usp=sharing New Ground Mag and TEC/GPS system]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1thUuT5pZqMjWI4xR5ytT8IvXSRpBl72c/view?usp=sharing MACCS]<br />
* Don Hampton, [https://drive.google.com/file/d/1DQyBge17GT9r7Vjvjp5LYXio9yGUkLnU/view?usp=sharing GIMA]<br />
* Hyomin Kim, AGO<br />
* Mike Hartinger, [https://drive.google.com/file/d/1OArNCvEEsFdXwi7qmz9_WNQskhcRqBGW/view?usp=sharing AALPIP]<br />
<br />
== February 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research ==<br />
<br />
Thursday, 4 February, 1100-1230 US Eastern Time<br />
<br />
This virtual meeting will begin with an invited talk from Gary Egbert on current/future applications of ground magnetometers to geophysics research, including magnetotellurics research relevant to Heliophysics/GIC. This continues a series of discussions intended to gather feedback for the upcoming Heliophysics Decadal Survey.<br />
<br />
The rest of the meeting will be for updates from SuperMAG and individual magnetometer networks, NSF announcements, and discussion of magnetometer digital object identifiers.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
[https://agu.confex.com/agu/fm20/meetingapp.cgi/Paper/685551 Link] to Gary Egbert's 2020 AGU presentation, "Modeling Diurnal Variation Magnetic Fields for Mantle Induction Studies"<br />
<br />
* 1100-1105 Mike Hartinger, [https://drive.google.com/file/d/1FQUYC_Q0F3I97RAYrOsCN_piy9cu8OcG/view?usp=sharing Introduction and Updates on Digital Object Identifiers]<br />
* 1105-1125 Gary Egbert, [https://drive.google.com/file/d/1fvp4QiW5BpPxtlmopLaPxKp-x9SUX2Wx/view?usp=sharing Current and Future Applications of Ground Magnetometers to Geophysics Research]<br />
* 1125-1135 Jennifer Gannon, [https://drive.google.com/file/d/1AL3NasABl5eDSE-Gh71-MTcR8BuG-PpH/view?usp=sharing MagStar]<br />
* 1135-1145 Josh Rigler / Anna Kelbert, USGS Updates<br />
* 1145-1155 Whitham Reeve, [https://drive.google.com/file/d/1TUetaa2wE7W_b2-h0v3q287B0h6F8LzA/view?usp=sharing SAM-III]<br />
* 1155-1205 Rob Barnes / Matt Potter, [https://drive.google.com/file/d/1xXunj9lafw2m5C3AdDBHi6ZqTPpU-Jtf/view?usp=sharing SuperMAG Updates]<br />
* 1205-1215 [https://drive.google.com/file/d/1YDZB7mhG8rZS5EqzRIax4AvCL2wmm6q7/view?usp=sharing Collaboration tools and NSF opportunities]<br />
* 1215-1230 Additional Brief Project Updates: [https://drive.google.com/file/d/1R-SetUGvFfZyA0emtZtOxZ3WbjXXF2BN/view?usp=sharing MICA], [https://drive.google.com/file/d/1Z62YCvAGkvF2lJmHLAJOG3qtlFvYs09P/view?usp=sharing MACCS], [https://drive.google.com/file/d/1THwB7Cq0K5hhPhY_3BRh9R724FwXssD-/view?usp=sharing NJIT], [https://drive.google.com/file/d/17XYtKyofyw_1uRc1T69K2l7Qxiiccyau/view?usp=sharing AALPIP]<br />
<br />
== July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey ==<br />
<br />
Thursday, 8 July, 1200-1330 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey. The discussion began with several presentations related to open magnetometer science questions and infrastructure. The rest of the meeting was for open discussion on topics for magnetometer-related white papers for the decadal survey.<br />
<br />
[https://drive.google.com/file/d/1yEqAe-CuK0XQBLiP5vsrhEAg3LhRaIui/view?usp=sharing Meeting notes]<br />
<br />
* Mike Hartinger, [https://drive.google.com/file/d/1FVolkY5xVn4DeL_3TFQmLWIpcdl6vKHF/view?usp=sharing Overview of the Meeting, NSF Opportunities]<br />
* Adam Schultz, [https://drive.google.com/file/d/1iVcUlawbmcbkhyVZLdaLp1s-_f8QSKm7/view?usp=sharing Improving Situational Awareness of ground-level EM fields]<br />
* Dan Schneider, [https://drive.google.com/file/d/1KGiHVAEQkynAkKeqYFBwV0ynrrMAetke/view?usp=sharing QuakeFinder: Induction Coil Magnetometer Array]<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/1G4MGyKsbCIdBhNU0e3hoNqeA7HP_uZsD/view?usp=sharing SuperMAG news]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1pNoWfpl8XyaQ5qtKX1nMXJrzaxX3sIkk/view?usp=sharing Unresolved issues in MPE-GIC studies]<br />
<br />
== October 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (1) ==<br />
<br />
Thursday, 19 October, 1400-1530 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July 2021. This was a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== February 2022 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (2) ==<br />
<br />
Monday, 7 February, 1600-1700 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July and October 2021. The meeting started with a [https://drive.google.com/file/d/1TAjZPnhS60InWkukMMrVQh4rxzeZo0hd/view?usp=sharing presentation] discussing upcoming meetings and other announcements related to the Decadal Survey as well as plans for an over-arching ground magnetometer white paper. The remaining time was for a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== 2022 GEM Workshop meeting ==<br />
<br />
Monday, 20 June, 1030-1200 US Hawaii Time, Stingray room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2022 GEM workshop. The session will begin with an introduction to both groups followed by an invited talk by Dr. Chigomezyo Ngwira on geomagnetically induced currents and geomagnetic disturbances. The remainder of the session will be for discussion of Solar and Space Physics Decadal Survey white papers related to ground magnetometers and short magnetometer network updates.<br />
<br />
* 1030-1035 - Mike Hartinger, Overview of the US Ground Magnetometer Group<br />
* 1035-1040 - Xueling Shi, Overview of the new GEM GIC focus group<br />
* 1040-1100 - Chigomezyo Ngwira, Review of Geomagnetic Disturbances and GIC<br />
* 1100-1105 - Mike Hartinger, GMAG group decadal survey discussions overview<br />
* 1105-1110 - Mike Hartinger, Overarching magnetometer white paper<br />
* 1110-1115 - Jesper Gjerloev, Decadal survey white paper<br />
* 1115-1145 - General Q+A and discussion of decadal survey white paper topics<br />
* 1145-1200 - Magnetometer Network/SuperMAG Updates (1-slide/1-minute each): Jesper Gjerloev (SuperMAG), Shane Coyle (AALPIP), Shane Coyle (GPS Rollover), Michelle Salzano (MICA-S), Hyomin Kim (HamSCI magnetometer), Hyomin Kim (Deep polar cap Antarctic network), Josh Rigler (USGS magnetometer network), Mark Engebretson (MACCS - presenting virtually), Q+A<br />
<br />
== 2022 mini-GEM Workshop ==<br />
<br />
Sunday, 11 December, hybrid meeting<br />
<br />
The US magnetometer group participated in two joint sessions with the GEM GIC, MPEC, and IHMIC focus groups at the 2022 mini-GEM workshop. See the [https://gem.epss.ucla.edu/mediawiki/index.php/FG:_Understanding_the_causes_of_geomagnetic_disturbances_in_geospace_for_hazard_analysis_on_geomagnetically_induced_currents#2022_mini-GEM_Workshop_Meeting GIC FG wiki page] for details on the schedule.<br />
<br />
== 2023 GEM Workshop meeting ==<br />
<br />
Wednesday, 14 June, 1330-1500 US Pacific Time, Pacific A room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2023 GEM workshop.<br />
<br />
* 1330-1335 - Mike Hartinger, Overview of the US Ground Magnetometer Group and Recent Updates<br />
* 1335-1345 - Chia-Lin Huang, NSF updates<br />
* 1345-1350 - Jesper Gjerloev, SuperMAG updates<br />
* 1350-1355 - Peter Chi, ULTIMA updates<br />
* 1355-1400 - Discussion<br />
* 1400-1405 - Peter Chi, SMART network updates<br />
* 1405-1410 - Doga Ozturk, UAF SWUG Data Center<br />
* 1410-1415 - Zhonghua Xu, AALPIP network update<br />
* 1415-1420 - Hyomin Kim, NJIT update Antarctic geospace measurements<br />
* 1420-1425 - Mark Engebretson (virtual), MACCS network update and relevance to GDC/SMILE<br />
* 1425-1430 - Josh Rigler (virtual), USGS updates (observatories and variometers)<br />
* 1430-1435 - Mike Hartinger (for Shane Coyle), magget: A python module for finding and digesting ground magnetometer data from many modular data sources<br />
* 1435-1440 - Marc Lessard, Magnetic Induction Coil Array<br />
* 1440-1500 - General Q+A and discussion<br />
<br />
== 2023 mini-GEM Workshop ==<br />
<br />
Sunday, 10 December, 1530-1700 US Pacific Time, Gold Rush A room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2023 mini-GEM workshop. The session will begin with an introduction to both groups and a summary of recent activities, followed by updates from NSF and discussion of international collaborations involving ground magnetometers including International Polar Year. The rest of the session will be for SuperMAG updates, discussion of ground magnetometer campaigns with satellite missions (SMILE, GDC, EZE,…), and data sharing.<br />
<br />
* 1530-1535 - Mike Hartinger and Xueling Shi, GMAG board overview / Planned GIC FG activities<br />
* 1535-1545 - Chia-Lin Huang, NSF updates<br />
* 1545-1550 - Zhonghua Xu, Recap from GEOSCOPR workshop (Vladimir Papitashvili also available for Q+A)<br />
* 1550-1555 - Zhonghua Xu and Mike Hartinger, Early plans for ground magnetometers in the International Polar Year: IASC feedback<br />
* 1555-1600 - Lucilla Alfonsi (presented by Mike Hartinger), International Collaboration - SCAR AGATA <br />
* 1600-1610 - Discussion<br />
* 1610-1615 - Jesper Gjerloev, SuperMAG update<br />
* 1615-1620 - Jesper Gjerloev, EZIE mission coordination with ground-based measurements, including magnetometers<br />
* 1620-1625 - Bea Gallardo-Lacourt, GDC mission coordination with ground-based measurements, including magnetometers<br />
* 1625-1630 - Jennifer Carter and Maria-Theresia Walach, SMILE mission coordination with ground-based measurements, including magnetometers<br />
* 1630-1635 - Alexander Drozdov, Accessing Magnetometers from Seismology Databases via SPEDAS software<br />
* 1635-1700 - General Q+A and discussion</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=US_Ground-based_magnetometer_arrays&diff=6298US Ground-based magnetometer arrays2023-11-27T22:32:35Z<p>Mdhartin: </p>
<hr />
<div>=== US Ground Magnetometer Board ===<br />
<br />
This wiki page and related ground magnetometer board meetings are part of a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts. For more information about the current state and future of ground magnetometer networks in support of space weather monitoring and research, see this article in [https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017SW001718 Space Weather]. <br />
<br />
''Current Ground Magnetometer Board Members:''<br />
* Peter Chi<br />
* Mark Engebretson, (former chair)<br />
* Jennifer Gannon<br />
* Jesper Gjerloev<br />
* Michael Hartinger, (current chair, mhartinger@spacescience.org)<br />
* Hyomin Kim<br />
* Gang Lu<br />
* Josh Rigler<br />
* Michelle Salzano<br />
* Howard Singer<br />
* Endawoke Yizengaw<br />
<br />
''Former Ground Magnetometer Board Members:''<br />
* Carol Finn<br />
* Efthyia Zesta<br />
<br />
=== US-Sponsored Ground-Based Magnetometer Arrays and Programs* ===<br />
<br />
{| class="wikitable" style="width: 50%; height: 4em;"<br />
|-<br />
| Array || Location || Instruments || Manufacturer || No. of Locations<br />
|-<br />
| AAL-PIP || Antarctica || Fluxgate || Lviv Centre ISR || 6<br />
|-<br />
| AAL-PIP || Antarctica || Induction Coil || UNH || 4<br />
|-<br />
| AMBER || Africa || Fluxgate || UCLA || 7<br />
|-<br />
| AMBER || South America || Fluxgate || UCLA || 2<br />
|-<br />
| AMBER || East Asia || Fluxgate || UCLA || 4<br />
|-<br />
| Falcon || Continental US || Fluxgate || UCLA || 11<br />
|-<br />
| GIMA || Alaska || Fluxgate || Narod || 9<br />
|-<br />
| Jicamarca || South America || Fluxgate || UCLA || 2<br />
|-<br />
| LISN || South America || Fluxgate || Custom/Jicamarca || 6<br />
|-<br />
| MACCS || Arctic Canada || Fluxgate || Narod || 8<br />
|-<br />
| McMAC || Continental US & Mexico || Fluxgate || UCLA || 9<br />
|-<br />
| MEASURE || Continental US || Fluxgate || UCLA || 6<br />
|-<br />
| SAMBA || South America & Antarctica || Fluxgate || UCLA || 12<br />
|-<br />
| THEMIS || Continental US & Canada || Fluxgate || UCLA || 24<br />
|-<br />
| US Geological Survey || US & Territories || Fluxgate || Narod, Technical Univ of Denmark || 11<br />
|-<br />
| NJIT / AGO || Antarctica || Fluxgate || Bell Labs || 7<br />
|-<br />
| NJIT / AGO || Antarctica || Induction Coil || Tohoku University || 5<br />
|-<br />
| MICA || Antarctica || Induction Coil || UNH || 5<br />
|-<br />
| MICA || Arctic Canada || Induction Coil || UNH || 4<br />
|-<br />
| MICA || Svalbard || Induction Coil || UNH || 4<br />
|}<br />
<br />
*Some locations listed here have instruments that are not currently operating.<br />
<br />
=== Ground Magnetometer Data ===<br />
<br />
[http://supermag.jhuapl.edu/ SuperMAG]<br />
<br />
[https://www.usgs.gov/natural-hazards/geomagnetism/data-tools USGS Geomagnetism Program]<br />
<br />
[https://www.intermagnet.org/ INTERMAGNET]<br />
<br />
[http://vmo.igpp.ucla.edu/data1/SECS/Quicklook/ Spherical Elementary Currents] from James Weygand<br />
<br />
[http://themis.ssl.berkeley.edu/gmag/gmag_list.php?selyear=4000&selmonth=13&smap=on&sinfo=on&saelist=on&ae=on THEMIS]<br />
<br />
[https://cdaweb.gsfc.nasa.gov/index.html/ NASA CDAWeb]<br />
<br />
[http://mirl.unh.edu/ulf_status.html UNH Magnetic Induction Coil Array (MICA)]<br />
<br />
[http://search.iugonet.org/list.jsp IUGONET]<br />
<br />
=== Digital Object Identifiers for Ground Magnetometer Data ===<br />
<br />
Digital Object Identifiers (DOI) allow authors to cite data products just as they refer to papers. This is becoming a requirement of many journals, as it assures that the specific data used in a publication are findable and accessible. The DOI provides a permanent identifier (PID) for the data, remaining unchanged even if the data are moved to another archive. The "creators" (authors) of the data must link the DOI to a "landing page" that provides details about the data and methods for accessing them. Our group recommends that each ground magnetometer network generate DOIs for their datasets, at minimum one DOI for their original measurements (i.e., before filtering and other types of processing are performed).<br />
<br />
As a member of the [https://datacite.org DataCite organization], NASA Heliophysics (HP) can "mint" DOIs for ground magnetometer datasets. NASA HP is providing an easy means to assign DOIs to datasets using the HP Digital Resource Registry (HDRR) by providing landing pages for datasets based on their "SPASE" resource descriptions. As an example, any users of NASA's OMNI dataset can now use https://doi.org/10.48322/1shr-ht18 for the hourly dataset, and other DOIs for other sets, discoverable by a search with the Heliophysics Data Portal (HDP; https://heliophysicsdata.gsfc.nasa.gov; look for "omni" in the "observatory" entry at the left). More details for DOI initiation for resources in the HDP can be found [https://hpde.gsfc.nasa.gov/DOI_Initiative_October_2020.pdf here]. For further information, and especially to start the process of registering DOIs, contact James Weygand (jweygand@igpp.ucla.edu or jweygand@epss.ucla.edu).<br />
<br />
As noted above, a SPASE resource description is required for each magnetometer dataset to mint a DOI. Here's an example for the [https://drive.google.com/file/d/1MxEDFAa_grGuCdID9vwK9pRzkzH7FQYR/view?usp=sharing MACCS magnetometer network 5s measurements].<br />
<br />
== 2019 GEM workshop meeting ==<br />
<br />
The ground magnetometer advisory board was formed in 2016 as a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts.<br />
<br />
We invite the GEM community to attend our meeting on Monday, June 24 at 1:30 PM, where we’ll discuss updates on all the above items. Later this year, we’ll add new members to the advisory board who either operate ground magnetometers or use magnetometer data to support their scientific investigations and/or space weather monitoring efforts. If you’re interested in learning more about this opportunity, please attend this GEM meeting or contact Mike Hartinger (mdhartin@vt.edu).<br />
<br />
Monday, 24 June, 1:30 PM, Location: Santa Fe<br />
*Mike Hartinger - Updates on ground magnetometer advisory board activities<br />
*Mark Engebretson - Summary of information gathering report<br />
*Lisa Winter - NSF updates<br />
*Hyomin Kim - DRUM/DASI updates and future plans, discussion<br />
*Jesper Gjerloev - SuperMAG updates<br />
*Josh Rigler - USGS updates, updates from other magnetometer arrays<br />
<br />
== 2019 mini-GEM workshop meeting ==<br />
<br />
Sunday, 8 December, 1200-1330, Location: Oregon Room<br />
*Mike Hartinger - [https://drive.google.com/file/d/1f3nDkQU4Red2gBLe_I5z_z0LOTHRyfN8/view?usp=sharing Introduction and Overview of Advisory Board activities, updates on DOI and new instruments]<br />
*Howard Singer - [https://drive.google.com/file/d/16poHzPvIM60z9Z7E_qXHznRGL80cjRRY/view?usp=sharing How ground magnetometers are currently incorporated into forecasts at SWPC, how they could be incorporated in the future]<br />
*Jennifer Gannon - How ground magnetometers can best be used to monitor/investigate GIC, utility-grade magnetometers<br />
*Endawoke Yizengaw - Open discussion with NSF, DRUM/DASI future proposal plans<br />
*Anna Kelbert - [https://drive.google.com/open?id=1XFHxruhasIRvZ3JDGtVtExZE6d87tM0X USGS Geomagnetism Program updates]<br />
*Peter Chi - update on ULTIMA activities / international collaboration<br />
*James Weygand - [https://drive.google.com/open?id=1Uq5ArdynNUk6ymbrBAcbFU9zbzH1eD3t Spherical Elementary Currents and Mid/Low Latitude Data Availability]<br />
*Walk-ins TBD (Amy Keesee/Mike Coughlin,...)<br />
<br />
<br />
== August 2020 Virtual Discussion: Ground Magnetometer Measurements for Heliophysics Research and Space Weather Monitoring ==<br />
<br />
Friday, 7 August, 1500-1630 EDT<br />
<br />
[https://drive.google.com/file/d/1uQ18wVmQC9de6zGn8wXVmXHvkomQPP63/view?usp=sharing Meeting Summary and Community Feedback from Google Form]<br />
<br />
Discussion from this meeting and previous meetings was summarized in this [https://drive.google.com/file/d/1-lrglV9h7OneMK8XK0yjnPk3XhhMMMNg/view?usp=sharing Heliophysics 2050 white paper].<br />
<br />
Invited Speakers<br />
* Syau-Yun Hsieh – [https://drive.google.com/file/d/1nRB6Xjc8F4tyGDtFHSoH6Tr3Kxh8hnkq/view?usp=sharing SMILE mission ground-based support]<br />
* Enrico Camporeale – [https://drive.google.com/file/d/1JiQTM6I4q9TIcEYDlHSfWwM1nkwaLjNS/view?usp=sharing Long-term continuous magnetometer data for geomagnetic activity prediction using machine learning]<br />
* Slava Merkin – [https://drive.google.com/file/d/1-nALz_h5IUMtUPPZKGQh3KNHS-GxbBqx/view?usp=sharing What is required of global magnetosphere-ionosphere-thermosphere models to predict ground magnetic perturbations]<br />
<br />
Project Updates<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/15fE4UXOXYYjACtDilek9s1DDd8h9ODho/view?usp=sharing SuperMAG]<br />
* Michelle Salzano, [https://drive.google.com/file/d/12fI2yM-q_fw-4-4cN_8Nsp3oECtohjPh/view?usp=sharing MICA]<br />
* Josh Rigler, [https://drive.google.com/file/d/1aYjQcO-56TyNB0U97bobyRVsu1D05iJo/view?usp=sharing USGS] <br />
* Jennifer Gannon, [https://drive.google.com/file/d/17KkpAGoV1OwOAsi8n6x3fTF2q6xk_CNV/view?usp=sharing MagStar]<br />
* Chuck Smith, [https://drive.google.com/file/d/1VuUgOTyFrrBxuvxmdbJoVgYeyEmAUgIw/view?usp=sharing Space Weather Underground]<br />
* Endawoke Yizengaw, iMAGS<br />
* Peter Chi, [https://drive.google.com/file/d/1CX26PkNjz_8mFhrmqX14ZxE1m8eO-Rw3/view?usp=sharing SMART]<br />
* Mark Moldwin, [https://drive.google.com/file/d/1zrSgS7iImyWW7rlXWtqheU4gWOLUS3LW/view?usp=sharing New Ground Mag and TEC/GPS system]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1thUuT5pZqMjWI4xR5ytT8IvXSRpBl72c/view?usp=sharing MACCS]<br />
* Don Hampton, [https://drive.google.com/file/d/1DQyBge17GT9r7Vjvjp5LYXio9yGUkLnU/view?usp=sharing GIMA]<br />
* Hyomin Kim, AGO<br />
* Mike Hartinger, [https://drive.google.com/file/d/1OArNCvEEsFdXwi7qmz9_WNQskhcRqBGW/view?usp=sharing AALPIP]<br />
<br />
== February 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research ==<br />
<br />
Thursday, 4 February, 1100-1230 US Eastern Time<br />
<br />
This virtual meeting will begin with an invited talk from Gary Egbert on current/future applications of ground magnetometers to geophysics research, including magnetotellurics research relevant to Heliophysics/GIC. This continues a series of discussions intended to gather feedback for the upcoming Heliophysics Decadal Survey.<br />
<br />
The rest of the meeting will be for updates from SuperMAG and individual magnetometer networks, NSF announcements, and discussion of magnetometer digital object identifiers.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
[https://agu.confex.com/agu/fm20/meetingapp.cgi/Paper/685551 Link] to Gary Egbert's 2020 AGU presentation, "Modeling Diurnal Variation Magnetic Fields for Mantle Induction Studies"<br />
<br />
* 1100-1105 Mike Hartinger, [https://drive.google.com/file/d/1FQUYC_Q0F3I97RAYrOsCN_piy9cu8OcG/view?usp=sharing Introduction and Updates on Digital Object Identifiers]<br />
* 1105-1125 Gary Egbert, [https://drive.google.com/file/d/1fvp4QiW5BpPxtlmopLaPxKp-x9SUX2Wx/view?usp=sharing Current and Future Applications of Ground Magnetometers to Geophysics Research]<br />
* 1125-1135 Jennifer Gannon, [https://drive.google.com/file/d/1AL3NasABl5eDSE-Gh71-MTcR8BuG-PpH/view?usp=sharing MagStar]<br />
* 1135-1145 Josh Rigler / Anna Kelbert, USGS Updates<br />
* 1145-1155 Whitham Reeve, [https://drive.google.com/file/d/1TUetaa2wE7W_b2-h0v3q287B0h6F8LzA/view?usp=sharing SAM-III]<br />
* 1155-1205 Rob Barnes / Matt Potter, [https://drive.google.com/file/d/1xXunj9lafw2m5C3AdDBHi6ZqTPpU-Jtf/view?usp=sharing SuperMAG Updates]<br />
* 1205-1215 [https://drive.google.com/file/d/1YDZB7mhG8rZS5EqzRIax4AvCL2wmm6q7/view?usp=sharing Collaboration tools and NSF opportunities]<br />
* 1215-1230 Additional Brief Project Updates: [https://drive.google.com/file/d/1R-SetUGvFfZyA0emtZtOxZ3WbjXXF2BN/view?usp=sharing MICA], [https://drive.google.com/file/d/1Z62YCvAGkvF2lJmHLAJOG3qtlFvYs09P/view?usp=sharing MACCS], [https://drive.google.com/file/d/1THwB7Cq0K5hhPhY_3BRh9R724FwXssD-/view?usp=sharing NJIT], [https://drive.google.com/file/d/17XYtKyofyw_1uRc1T69K2l7Qxiiccyau/view?usp=sharing AALPIP]<br />
<br />
== July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey ==<br />
<br />
Thursday, 8 July, 1200-1330 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey. The discussion began with several presentations related to open magnetometer science questions and infrastructure. The rest of the meeting was for open discussion on topics for magnetometer-related white papers for the decadal survey.<br />
<br />
[https://drive.google.com/file/d/1yEqAe-CuK0XQBLiP5vsrhEAg3LhRaIui/view?usp=sharing Meeting notes]<br />
<br />
* Mike Hartinger, [https://drive.google.com/file/d/1FVolkY5xVn4DeL_3TFQmLWIpcdl6vKHF/view?usp=sharing Overview of the Meeting, NSF Opportunities]<br />
* Adam Schultz, [https://drive.google.com/file/d/1iVcUlawbmcbkhyVZLdaLp1s-_f8QSKm7/view?usp=sharing Improving Situational Awareness of ground-level EM fields]<br />
* Dan Schneider, [https://drive.google.com/file/d/1KGiHVAEQkynAkKeqYFBwV0ynrrMAetke/view?usp=sharing QuakeFinder: Induction Coil Magnetometer Array]<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/1G4MGyKsbCIdBhNU0e3hoNqeA7HP_uZsD/view?usp=sharing SuperMAG news]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1pNoWfpl8XyaQ5qtKX1nMXJrzaxX3sIkk/view?usp=sharing Unresolved issues in MPE-GIC studies]<br />
<br />
== October 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (1) ==<br />
<br />
Thursday, 19 October, 1400-1530 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July 2021. This was a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== February 2022 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (2) ==<br />
<br />
Monday, 7 February, 1600-1700 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July and October 2021. The meeting started with a [https://drive.google.com/file/d/1TAjZPnhS60InWkukMMrVQh4rxzeZo0hd/view?usp=sharing presentation] discussing upcoming meetings and other announcements related to the Decadal Survey as well as plans for an over-arching ground magnetometer white paper. The remaining time was for a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== 2022 GEM Workshop meeting ==<br />
<br />
Monday, 20 June, 1030-1200 US Hawaii Time, Stingray room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2022 GEM workshop. The session will begin with an introduction to both groups followed by an invited talk by Dr. Chigomezyo Ngwira on geomagnetically induced currents and geomagnetic disturbances. The remainder of the session will be for discussion of Solar and Space Physics Decadal Survey white papers related to ground magnetometers and short magnetometer network updates.<br />
<br />
* 1030-1035 - Mike Hartinger, Overview of the US Ground Magnetometer Group<br />
* 1035-1040 - Xueling Shi, Overview of the new GEM GIC focus group<br />
* 1040-1100 - Chigomezyo Ngwira, Review of Geomagnetic Disturbances and GIC<br />
* 1100-1105 - Mike Hartinger, GMAG group decadal survey discussions overview<br />
* 1105-1110 - Mike Hartinger, Overarching magnetometer white paper<br />
* 1110-1115 - Jesper Gjerloev, Decadal survey white paper<br />
* 1115-1145 - General Q+A and discussion of decadal survey white paper topics<br />
* 1145-1200 - Magnetometer Network/SuperMAG Updates (1-slide/1-minute each): Jesper Gjerloev (SuperMAG), Shane Coyle (AALPIP), Shane Coyle (GPS Rollover), Michelle Salzano (MICA-S), Hyomin Kim (HamSCI magnetometer), Hyomin Kim (Deep polar cap Antarctic network), Josh Rigler (USGS magnetometer network), Mark Engebretson (MACCS - presenting virtually), Q+A<br />
<br />
== 2022 mini-GEM Workshop ==<br />
<br />
Sunday, 11 December, hybrid meeting<br />
<br />
The US magnetometer group participated in two joint sessions with the GEM GIC, MPEC, and IHMIC focus groups at the 2022 mini-GEM workshop. See the [https://gem.epss.ucla.edu/mediawiki/index.php/FG:_Understanding_the_causes_of_geomagnetic_disturbances_in_geospace_for_hazard_analysis_on_geomagnetically_induced_currents#2022_mini-GEM_Workshop_Meeting GIC FG wiki page] for details on the schedule.<br />
<br />
== 2023 GEM Workshop meeting ==<br />
<br />
Wednesday, 14 June, 1330-1500 US Pacific Time, Pacific A room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2023 GEM workshop.<br />
<br />
* 1330-1335 - Mike Hartinger, Overview of the US Ground Magnetometer Group and Recent Updates<br />
* 1335-1345 - Chia-Lin Huang, NSF updates<br />
* 1345-1350 - Jesper Gjerloev, SuperMAG updates<br />
* 1350-1355 - Peter Chi, ULTIMA updates<br />
* 1355-1400 - Discussion<br />
* 1400-1405 - Peter Chi, SMART network updates<br />
* 1405-1410 - Doga Ozturk, UAF SWUG Data Center<br />
* 1410-1415 - Zhonghua Xu, AALPIP network update<br />
* 1415-1420 - Hyomin Kim, NJIT update Antarctic geospace measurements<br />
* 1420-1425 - Mark Engebretson (virtual), MACCS network update and relevance to GDC/SMILE<br />
* 1425-1430 - Josh Rigler (virtual), USGS updates (observatories and variometers)<br />
* 1430-1435 - Mike Hartinger (for Shane Coyle), magget: A python module for finding and digesting ground magnetometer data from many modular data sources<br />
* 1435-1440 - Marc Lessard, Magnetic Induction Coil Array<br />
* 1440-1500 - General Q+A and discussion<br />
<br />
== 2023 mini-GEM Workshop ==<br />
<br />
Sunday, 10 December, 1530-1700 US Pacific Time, Gold Rush A room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2023 mini-GEM workshop. The session will begin with an introduction to both groups and a summary of recent activities, followed by updates from NSF and discussion of international collaborations involving ground magnetometers including International Polar Year. The rest of the session will be for SuperMAG updates, discussion of ground magnetometer campaigns with satellite missions (SMILE, GDC, EZE,…), and data sharing.</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=US_Ground-based_magnetometer_arrays&diff=6268US Ground-based magnetometer arrays2023-06-13T20:55:15Z<p>Mdhartin: /* 2023 GEM Workshop meeting */</p>
<hr />
<div>=== US Ground Magnetometer Board ===<br />
<br />
This wiki page and related ground magnetometer board meetings are part of a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts. For more information about the current state and future of ground magnetometer networks in support of space weather monitoring and research, see this article in [https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017SW001718 Space Weather]. <br />
<br />
''Current Ground Magnetometer Board Members:''<br />
* Peter Chi<br />
* Mark Engebretson, (former chair)<br />
* Jennifer Gannon<br />
* Jesper Gjerloev<br />
* Michael Hartinger, (current chair, mhartinger@spacescience.org)<br />
* Hyomin Kim<br />
* Gang Lu<br />
* Josh Rigler<br />
* Michelle Salzano<br />
* Howard Singer<br />
* Endawoke Yizengaw<br />
<br />
''Former Ground Magnetometer Board Members:''<br />
* Carol Finn<br />
* Efthyia Zesta<br />
<br />
=== US-Sponsored Ground-Based Magnetometer Arrays and Programs* ===<br />
<br />
{| class="wikitable" style="width: 50%; height: 4em;"<br />
|-<br />
| Array || Location || Instruments || Manufacturer || No. of Locations<br />
|-<br />
| AAL-PIP || Antarctica || Fluxgate || Lviv Centre ISR || 6<br />
|-<br />
| AAL-PIP || Antarctica || Induction Coil || UNH || 4<br />
|-<br />
| AMBER || Africa || Fluxgate || UCLA || 7<br />
|-<br />
| AMBER || South America || Fluxgate || UCLA || 2<br />
|-<br />
| AMBER || East Asia || Fluxgate || UCLA || 4<br />
|-<br />
| Falcon || Continental US || Fluxgate || UCLA || 11<br />
|-<br />
| GIMA || Alaska || Fluxgate || Narod || 9<br />
|-<br />
| Jicamarca || South America || Fluxgate || UCLA || 2<br />
|-<br />
| LISN || South America || Fluxgate || Custom/Jicamarca || 6<br />
|-<br />
| MACCS || Arctic Canada || Fluxgate || Narod || 8<br />
|-<br />
| McMAC || Continental US & Mexico || Fluxgate || UCLA || 9<br />
|-<br />
| MEASURE || Continental US || Fluxgate || UCLA || 6<br />
|-<br />
| SAMBA || South America & Antarctica || Fluxgate || UCLA || 12<br />
|-<br />
| THEMIS || Continental US & Canada || Fluxgate || UCLA || 24<br />
|-<br />
| US Geological Survey || US & Territories || Fluxgate || Narod, Technical Univ of Denmark || 11<br />
|-<br />
| NJIT / AGO || Antarctica || Fluxgate || Bell Labs || 7<br />
|-<br />
| NJIT / AGO || Antarctica || Induction Coil || Tohoku University || 5<br />
|-<br />
| MICA || Antarctica || Induction Coil || UNH || 5<br />
|-<br />
| MICA || Arctic Canada || Induction Coil || UNH || 4<br />
|-<br />
| MICA || Svalbard || Induction Coil || UNH || 4<br />
|}<br />
<br />
*Some locations listed here have instruments that are not currently operating.<br />
<br />
=== Ground Magnetometer Data ===<br />
<br />
[http://supermag.jhuapl.edu/ SuperMAG]<br />
<br />
[https://www.usgs.gov/natural-hazards/geomagnetism/data-tools USGS Geomagnetism Program]<br />
<br />
[https://www.intermagnet.org/ INTERMAGNET]<br />
<br />
[http://vmo.igpp.ucla.edu/data1/SECS/Quicklook/ Spherical Elementary Currents] from James Weygand<br />
<br />
[http://themis.ssl.berkeley.edu/gmag/gmag_list.php?selyear=4000&selmonth=13&smap=on&sinfo=on&saelist=on&ae=on THEMIS]<br />
<br />
[https://cdaweb.gsfc.nasa.gov/index.html/ NASA CDAWeb]<br />
<br />
[http://mirl.unh.edu/ulf_status.html UNH Magnetic Induction Coil Array (MICA)]<br />
<br />
[http://search.iugonet.org/list.jsp IUGONET]<br />
<br />
=== Digital Object Identifiers for Ground Magnetometer Data ===<br />
<br />
Digital Object Identifiers (DOI) allow authors to cite data products just as they refer to papers. This is becoming a requirement of many journals, as it assures that the specific data used in a publication are findable and accessible. The DOI provides a permanent identifier (PID) for the data, remaining unchanged even if the data are moved to another archive. The "creators" (authors) of the data must link the DOI to a "landing page" that provides details about the data and methods for accessing them. Our group recommends that each ground magnetometer network generate DOIs for their datasets, at minimum one DOI for their original measurements (i.e., before filtering and other types of processing are performed).<br />
<br />
As a member of the [https://datacite.org DataCite organization], NASA Heliophysics (HP) can "mint" DOIs for ground magnetometer datasets. NASA HP is providing an easy means to assign DOIs to datasets using the HP Digital Resource Registry (HDRR) by providing landing pages for datasets based on their "SPASE" resource descriptions. As an example, any users of NASA's OMNI dataset can now use https://doi.org/10.48322/1shr-ht18 for the hourly dataset, and other DOIs for other sets, discoverable by a search with the Heliophysics Data Portal (HDP; https://heliophysicsdata.gsfc.nasa.gov; look for "omni" in the "observatory" entry at the left). More details for DOI initiation for resources in the HDP can be found [https://hpde.gsfc.nasa.gov/DOI_Initiative_October_2020.pdf here]. For further information, and especially to start the process of registering DOIs, contact James Weygand (jweygand@igpp.ucla.edu or jweygand@epss.ucla.edu).<br />
<br />
As noted above, a SPASE resource description is required for each magnetometer dataset to mint a DOI. Here's an example for the [https://drive.google.com/file/d/1MxEDFAa_grGuCdID9vwK9pRzkzH7FQYR/view?usp=sharing MACCS magnetometer network 5s measurements].<br />
<br />
== 2019 GEM workshop meeting ==<br />
<br />
The ground magnetometer advisory board was formed in 2016 as a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts.<br />
<br />
We invite the GEM community to attend our meeting on Monday, June 24 at 1:30 PM, where we’ll discuss updates on all the above items. Later this year, we’ll add new members to the advisory board who either operate ground magnetometers or use magnetometer data to support their scientific investigations and/or space weather monitoring efforts. If you’re interested in learning more about this opportunity, please attend this GEM meeting or contact Mike Hartinger (mdhartin@vt.edu).<br />
<br />
Monday, 24 June, 1:30 PM, Location: Santa Fe<br />
*Mike Hartinger - Updates on ground magnetometer advisory board activities<br />
*Mark Engebretson - Summary of information gathering report<br />
*Lisa Winter - NSF updates<br />
*Hyomin Kim - DRUM/DASI updates and future plans, discussion<br />
*Jesper Gjerloev - SuperMAG updates<br />
*Josh Rigler - USGS updates, updates from other magnetometer arrays<br />
<br />
== 2019 mini-GEM workshop meeting ==<br />
<br />
Sunday, 8 December, 1200-1330, Location: Oregon Room<br />
*Mike Hartinger - [https://drive.google.com/file/d/1f3nDkQU4Red2gBLe_I5z_z0LOTHRyfN8/view?usp=sharing Introduction and Overview of Advisory Board activities, updates on DOI and new instruments]<br />
*Howard Singer - [https://drive.google.com/file/d/16poHzPvIM60z9Z7E_qXHznRGL80cjRRY/view?usp=sharing How ground magnetometers are currently incorporated into forecasts at SWPC, how they could be incorporated in the future]<br />
*Jennifer Gannon - How ground magnetometers can best be used to monitor/investigate GIC, utility-grade magnetometers<br />
*Endawoke Yizengaw - Open discussion with NSF, DRUM/DASI future proposal plans<br />
*Anna Kelbert - [https://drive.google.com/open?id=1XFHxruhasIRvZ3JDGtVtExZE6d87tM0X USGS Geomagnetism Program updates]<br />
*Peter Chi - update on ULTIMA activities / international collaboration<br />
*James Weygand - [https://drive.google.com/open?id=1Uq5ArdynNUk6ymbrBAcbFU9zbzH1eD3t Spherical Elementary Currents and Mid/Low Latitude Data Availability]<br />
*Walk-ins TBD (Amy Keesee/Mike Coughlin,...)<br />
<br />
<br />
== August 2020 Virtual Discussion: Ground Magnetometer Measurements for Heliophysics Research and Space Weather Monitoring ==<br />
<br />
Friday, 7 August, 1500-1630 EDT<br />
<br />
[https://drive.google.com/file/d/1uQ18wVmQC9de6zGn8wXVmXHvkomQPP63/view?usp=sharing Meeting Summary and Community Feedback from Google Form]<br />
<br />
Discussion from this meeting and previous meetings was summarized in this [https://drive.google.com/file/d/1-lrglV9h7OneMK8XK0yjnPk3XhhMMMNg/view?usp=sharing Heliophysics 2050 white paper].<br />
<br />
Invited Speakers<br />
* Syau-Yun Hsieh – [https://drive.google.com/file/d/1nRB6Xjc8F4tyGDtFHSoH6Tr3Kxh8hnkq/view?usp=sharing SMILE mission ground-based support]<br />
* Enrico Camporeale – [https://drive.google.com/file/d/1JiQTM6I4q9TIcEYDlHSfWwM1nkwaLjNS/view?usp=sharing Long-term continuous magnetometer data for geomagnetic activity prediction using machine learning]<br />
* Slava Merkin – [https://drive.google.com/file/d/1-nALz_h5IUMtUPPZKGQh3KNHS-GxbBqx/view?usp=sharing What is required of global magnetosphere-ionosphere-thermosphere models to predict ground magnetic perturbations]<br />
<br />
Project Updates<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/15fE4UXOXYYjACtDilek9s1DDd8h9ODho/view?usp=sharing SuperMAG]<br />
* Michelle Salzano, [https://drive.google.com/file/d/12fI2yM-q_fw-4-4cN_8Nsp3oECtohjPh/view?usp=sharing MICA]<br />
* Josh Rigler, [https://drive.google.com/file/d/1aYjQcO-56TyNB0U97bobyRVsu1D05iJo/view?usp=sharing USGS] <br />
* Jennifer Gannon, [https://drive.google.com/file/d/17KkpAGoV1OwOAsi8n6x3fTF2q6xk_CNV/view?usp=sharing MagStar]<br />
* Chuck Smith, [https://drive.google.com/file/d/1VuUgOTyFrrBxuvxmdbJoVgYeyEmAUgIw/view?usp=sharing Space Weather Underground]<br />
* Endawoke Yizengaw, iMAGS<br />
* Peter Chi, [https://drive.google.com/file/d/1CX26PkNjz_8mFhrmqX14ZxE1m8eO-Rw3/view?usp=sharing SMART]<br />
* Mark Moldwin, [https://drive.google.com/file/d/1zrSgS7iImyWW7rlXWtqheU4gWOLUS3LW/view?usp=sharing New Ground Mag and TEC/GPS system]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1thUuT5pZqMjWI4xR5ytT8IvXSRpBl72c/view?usp=sharing MACCS]<br />
* Don Hampton, [https://drive.google.com/file/d/1DQyBge17GT9r7Vjvjp5LYXio9yGUkLnU/view?usp=sharing GIMA]<br />
* Hyomin Kim, AGO<br />
* Mike Hartinger, [https://drive.google.com/file/d/1OArNCvEEsFdXwi7qmz9_WNQskhcRqBGW/view?usp=sharing AALPIP]<br />
<br />
== February 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research ==<br />
<br />
Thursday, 4 February, 1100-1230 US Eastern Time<br />
<br />
This virtual meeting will begin with an invited talk from Gary Egbert on current/future applications of ground magnetometers to geophysics research, including magnetotellurics research relevant to Heliophysics/GIC. This continues a series of discussions intended to gather feedback for the upcoming Heliophysics Decadal Survey.<br />
<br />
The rest of the meeting will be for updates from SuperMAG and individual magnetometer networks, NSF announcements, and discussion of magnetometer digital object identifiers.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
[https://agu.confex.com/agu/fm20/meetingapp.cgi/Paper/685551 Link] to Gary Egbert's 2020 AGU presentation, "Modeling Diurnal Variation Magnetic Fields for Mantle Induction Studies"<br />
<br />
* 1100-1105 Mike Hartinger, [https://drive.google.com/file/d/1FQUYC_Q0F3I97RAYrOsCN_piy9cu8OcG/view?usp=sharing Introduction and Updates on Digital Object Identifiers]<br />
* 1105-1125 Gary Egbert, [https://drive.google.com/file/d/1fvp4QiW5BpPxtlmopLaPxKp-x9SUX2Wx/view?usp=sharing Current and Future Applications of Ground Magnetometers to Geophysics Research]<br />
* 1125-1135 Jennifer Gannon, [https://drive.google.com/file/d/1AL3NasABl5eDSE-Gh71-MTcR8BuG-PpH/view?usp=sharing MagStar]<br />
* 1135-1145 Josh Rigler / Anna Kelbert, USGS Updates<br />
* 1145-1155 Whitham Reeve, [https://drive.google.com/file/d/1TUetaa2wE7W_b2-h0v3q287B0h6F8LzA/view?usp=sharing SAM-III]<br />
* 1155-1205 Rob Barnes / Matt Potter, [https://drive.google.com/file/d/1xXunj9lafw2m5C3AdDBHi6ZqTPpU-Jtf/view?usp=sharing SuperMAG Updates]<br />
* 1205-1215 [https://drive.google.com/file/d/1YDZB7mhG8rZS5EqzRIax4AvCL2wmm6q7/view?usp=sharing Collaboration tools and NSF opportunities]<br />
* 1215-1230 Additional Brief Project Updates: [https://drive.google.com/file/d/1R-SetUGvFfZyA0emtZtOxZ3WbjXXF2BN/view?usp=sharing MICA], [https://drive.google.com/file/d/1Z62YCvAGkvF2lJmHLAJOG3qtlFvYs09P/view?usp=sharing MACCS], [https://drive.google.com/file/d/1THwB7Cq0K5hhPhY_3BRh9R724FwXssD-/view?usp=sharing NJIT], [https://drive.google.com/file/d/17XYtKyofyw_1uRc1T69K2l7Qxiiccyau/view?usp=sharing AALPIP]<br />
<br />
== July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey ==<br />
<br />
Thursday, 8 July, 1200-1330 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey. The discussion began with several presentations related to open magnetometer science questions and infrastructure. The rest of the meeting was for open discussion on topics for magnetometer-related white papers for the decadal survey.<br />
<br />
[https://drive.google.com/file/d/1yEqAe-CuK0XQBLiP5vsrhEAg3LhRaIui/view?usp=sharing Meeting notes]<br />
<br />
* Mike Hartinger, [https://drive.google.com/file/d/1FVolkY5xVn4DeL_3TFQmLWIpcdl6vKHF/view?usp=sharing Overview of the Meeting, NSF Opportunities]<br />
* Adam Schultz, [https://drive.google.com/file/d/1iVcUlawbmcbkhyVZLdaLp1s-_f8QSKm7/view?usp=sharing Improving Situational Awareness of ground-level EM fields]<br />
* Dan Schneider, [https://drive.google.com/file/d/1KGiHVAEQkynAkKeqYFBwV0ynrrMAetke/view?usp=sharing QuakeFinder: Induction Coil Magnetometer Array]<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/1G4MGyKsbCIdBhNU0e3hoNqeA7HP_uZsD/view?usp=sharing SuperMAG news]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1pNoWfpl8XyaQ5qtKX1nMXJrzaxX3sIkk/view?usp=sharing Unresolved issues in MPE-GIC studies]<br />
<br />
== October 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (1) ==<br />
<br />
Thursday, 19 October, 1400-1530 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July 2021. This was a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== February 2022 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (2) ==<br />
<br />
Monday, 7 February, 1600-1700 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July and October 2021. The meeting started with a [https://drive.google.com/file/d/1TAjZPnhS60InWkukMMrVQh4rxzeZo0hd/view?usp=sharing presentation] discussing upcoming meetings and other announcements related to the Decadal Survey as well as plans for an over-arching ground magnetometer white paper. The remaining time was for a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== 2022 GEM Workshop meeting ==<br />
<br />
Monday, 20 June, 1030-1200 US Hawaii Time, Stingray room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2022 GEM workshop. The session will begin with an introduction to both groups followed by an invited talk by Dr. Chigomezyo Ngwira on geomagnetically induced currents and geomagnetic disturbances. The remainder of the session will be for discussion of Solar and Space Physics Decadal Survey white papers related to ground magnetometers and short magnetometer network updates.<br />
<br />
* 1030-1035 - Mike Hartinger, Overview of the US Ground Magnetometer Group<br />
* 1035-1040 - Xueling Shi, Overview of the new GEM GIC focus group<br />
* 1040-1100 - Chigomezyo Ngwira, Review of Geomagnetic Disturbances and GIC<br />
* 1100-1105 - Mike Hartinger, GMAG group decadal survey discussions overview<br />
* 1105-1110 - Mike Hartinger, Overarching magnetometer white paper<br />
* 1110-1115 - Jesper Gjerloev, Decadal survey white paper<br />
* 1115-1145 - General Q+A and discussion of decadal survey white paper topics<br />
* 1145-1200 - Magnetometer Network/SuperMAG Updates (1-slide/1-minute each): Jesper Gjerloev (SuperMAG), Shane Coyle (AALPIP), Shane Coyle (GPS Rollover), Michelle Salzano (MICA-S), Hyomin Kim (HamSCI magnetometer), Hyomin Kim (Deep polar cap Antarctic network), Josh Rigler (USGS magnetometer network), Mark Engebretson (MACCS - presenting virtually), Q+A<br />
<br />
== 2022 mini-GEM Workshop ==<br />
<br />
Sunday, 11 December, hybrid meeting<br />
<br />
The US magnetometer group participated in two joint sessions with the GEM GIC, MPEC, and IHMIC focus groups at the 2022 mini-GEM workshop. See the [https://gem.epss.ucla.edu/mediawiki/index.php/FG:_Understanding_the_causes_of_geomagnetic_disturbances_in_geospace_for_hazard_analysis_on_geomagnetically_induced_currents#2022_mini-GEM_Workshop_Meeting GIC FG wiki page] for details on the schedule.<br />
<br />
== 2023 GEM Workshop meeting ==<br />
<br />
Wednesday, 14 June, 1330-1500 US Pacific Time, Pacific A room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2023 GEM workshop.<br />
<br />
* 1330-1335 - Mike Hartinger, Overview of the US Ground Magnetometer Group and Recent Updates<br />
* 1335-1345 - Chia-Lin Huang, NSF updates<br />
* 1345-1350 - Jesper Gjerloev, SuperMAG updates<br />
* 1350-1355 - Peter Chi, ULTIMA updates<br />
* 1355-1400 - Discussion<br />
* 1400-1405 - Peter Chi, SMART network updates<br />
* 1405-1410 - Doga Ozturk, UAF SWUG Data Center<br />
* 1410-1415 - Zhonghua Xu, AALPIP network update<br />
* 1415-1420 - Hyomin Kim, NJIT update Antarctic geospace measurements<br />
* 1420-1425 - Mark Engebretson (virtual), MACCS network update and relevance to GDC/SMILE<br />
* 1425-1430 - Josh Rigler (virtual), USGS updates (observatories and variometers)<br />
* 1430-1435 - Mike Hartinger (for Shane Coyle), magget: A python module for finding and digesting ground magnetometer data from many modular data sources<br />
* 1435-1440 - Marc Lessard, Magnetic Induction Coil Array<br />
* 1440-1500 - General Q+A and discussion</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=US_Ground-based_magnetometer_arrays&diff=6267US Ground-based magnetometer arrays2023-06-13T20:55:03Z<p>Mdhartin: /* 2023 GEM Workshop meeting */</p>
<hr />
<div>=== US Ground Magnetometer Board ===<br />
<br />
This wiki page and related ground magnetometer board meetings are part of a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts. For more information about the current state and future of ground magnetometer networks in support of space weather monitoring and research, see this article in [https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017SW001718 Space Weather]. <br />
<br />
''Current Ground Magnetometer Board Members:''<br />
* Peter Chi<br />
* Mark Engebretson, (former chair)<br />
* Jennifer Gannon<br />
* Jesper Gjerloev<br />
* Michael Hartinger, (current chair, mhartinger@spacescience.org)<br />
* Hyomin Kim<br />
* Gang Lu<br />
* Josh Rigler<br />
* Michelle Salzano<br />
* Howard Singer<br />
* Endawoke Yizengaw<br />
<br />
''Former Ground Magnetometer Board Members:''<br />
* Carol Finn<br />
* Efthyia Zesta<br />
<br />
=== US-Sponsored Ground-Based Magnetometer Arrays and Programs* ===<br />
<br />
{| class="wikitable" style="width: 50%; height: 4em;"<br />
|-<br />
| Array || Location || Instruments || Manufacturer || No. of Locations<br />
|-<br />
| AAL-PIP || Antarctica || Fluxgate || Lviv Centre ISR || 6<br />
|-<br />
| AAL-PIP || Antarctica || Induction Coil || UNH || 4<br />
|-<br />
| AMBER || Africa || Fluxgate || UCLA || 7<br />
|-<br />
| AMBER || South America || Fluxgate || UCLA || 2<br />
|-<br />
| AMBER || East Asia || Fluxgate || UCLA || 4<br />
|-<br />
| Falcon || Continental US || Fluxgate || UCLA || 11<br />
|-<br />
| GIMA || Alaska || Fluxgate || Narod || 9<br />
|-<br />
| Jicamarca || South America || Fluxgate || UCLA || 2<br />
|-<br />
| LISN || South America || Fluxgate || Custom/Jicamarca || 6<br />
|-<br />
| MACCS || Arctic Canada || Fluxgate || Narod || 8<br />
|-<br />
| McMAC || Continental US & Mexico || Fluxgate || UCLA || 9<br />
|-<br />
| MEASURE || Continental US || Fluxgate || UCLA || 6<br />
|-<br />
| SAMBA || South America & Antarctica || Fluxgate || UCLA || 12<br />
|-<br />
| THEMIS || Continental US & Canada || Fluxgate || UCLA || 24<br />
|-<br />
| US Geological Survey || US & Territories || Fluxgate || Narod, Technical Univ of Denmark || 11<br />
|-<br />
| NJIT / AGO || Antarctica || Fluxgate || Bell Labs || 7<br />
|-<br />
| NJIT / AGO || Antarctica || Induction Coil || Tohoku University || 5<br />
|-<br />
| MICA || Antarctica || Induction Coil || UNH || 5<br />
|-<br />
| MICA || Arctic Canada || Induction Coil || UNH || 4<br />
|-<br />
| MICA || Svalbard || Induction Coil || UNH || 4<br />
|}<br />
<br />
*Some locations listed here have instruments that are not currently operating.<br />
<br />
=== Ground Magnetometer Data ===<br />
<br />
[http://supermag.jhuapl.edu/ SuperMAG]<br />
<br />
[https://www.usgs.gov/natural-hazards/geomagnetism/data-tools USGS Geomagnetism Program]<br />
<br />
[https://www.intermagnet.org/ INTERMAGNET]<br />
<br />
[http://vmo.igpp.ucla.edu/data1/SECS/Quicklook/ Spherical Elementary Currents] from James Weygand<br />
<br />
[http://themis.ssl.berkeley.edu/gmag/gmag_list.php?selyear=4000&selmonth=13&smap=on&sinfo=on&saelist=on&ae=on THEMIS]<br />
<br />
[https://cdaweb.gsfc.nasa.gov/index.html/ NASA CDAWeb]<br />
<br />
[http://mirl.unh.edu/ulf_status.html UNH Magnetic Induction Coil Array (MICA)]<br />
<br />
[http://search.iugonet.org/list.jsp IUGONET]<br />
<br />
=== Digital Object Identifiers for Ground Magnetometer Data ===<br />
<br />
Digital Object Identifiers (DOI) allow authors to cite data products just as they refer to papers. This is becoming a requirement of many journals, as it assures that the specific data used in a publication are findable and accessible. The DOI provides a permanent identifier (PID) for the data, remaining unchanged even if the data are moved to another archive. The "creators" (authors) of the data must link the DOI to a "landing page" that provides details about the data and methods for accessing them. Our group recommends that each ground magnetometer network generate DOIs for their datasets, at minimum one DOI for their original measurements (i.e., before filtering and other types of processing are performed).<br />
<br />
As a member of the [https://datacite.org DataCite organization], NASA Heliophysics (HP) can "mint" DOIs for ground magnetometer datasets. NASA HP is providing an easy means to assign DOIs to datasets using the HP Digital Resource Registry (HDRR) by providing landing pages for datasets based on their "SPASE" resource descriptions. As an example, any users of NASA's OMNI dataset can now use https://doi.org/10.48322/1shr-ht18 for the hourly dataset, and other DOIs for other sets, discoverable by a search with the Heliophysics Data Portal (HDP; https://heliophysicsdata.gsfc.nasa.gov; look for "omni" in the "observatory" entry at the left). More details for DOI initiation for resources in the HDP can be found [https://hpde.gsfc.nasa.gov/DOI_Initiative_October_2020.pdf here]. For further information, and especially to start the process of registering DOIs, contact James Weygand (jweygand@igpp.ucla.edu or jweygand@epss.ucla.edu).<br />
<br />
As noted above, a SPASE resource description is required for each magnetometer dataset to mint a DOI. Here's an example for the [https://drive.google.com/file/d/1MxEDFAa_grGuCdID9vwK9pRzkzH7FQYR/view?usp=sharing MACCS magnetometer network 5s measurements].<br />
<br />
== 2019 GEM workshop meeting ==<br />
<br />
The ground magnetometer advisory board was formed in 2016 as a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts.<br />
<br />
We invite the GEM community to attend our meeting on Monday, June 24 at 1:30 PM, where we’ll discuss updates on all the above items. Later this year, we’ll add new members to the advisory board who either operate ground magnetometers or use magnetometer data to support their scientific investigations and/or space weather monitoring efforts. If you’re interested in learning more about this opportunity, please attend this GEM meeting or contact Mike Hartinger (mdhartin@vt.edu).<br />
<br />
Monday, 24 June, 1:30 PM, Location: Santa Fe<br />
*Mike Hartinger - Updates on ground magnetometer advisory board activities<br />
*Mark Engebretson - Summary of information gathering report<br />
*Lisa Winter - NSF updates<br />
*Hyomin Kim - DRUM/DASI updates and future plans, discussion<br />
*Jesper Gjerloev - SuperMAG updates<br />
*Josh Rigler - USGS updates, updates from other magnetometer arrays<br />
<br />
== 2019 mini-GEM workshop meeting ==<br />
<br />
Sunday, 8 December, 1200-1330, Location: Oregon Room<br />
*Mike Hartinger - [https://drive.google.com/file/d/1f3nDkQU4Red2gBLe_I5z_z0LOTHRyfN8/view?usp=sharing Introduction and Overview of Advisory Board activities, updates on DOI and new instruments]<br />
*Howard Singer - [https://drive.google.com/file/d/16poHzPvIM60z9Z7E_qXHznRGL80cjRRY/view?usp=sharing How ground magnetometers are currently incorporated into forecasts at SWPC, how they could be incorporated in the future]<br />
*Jennifer Gannon - How ground magnetometers can best be used to monitor/investigate GIC, utility-grade magnetometers<br />
*Endawoke Yizengaw - Open discussion with NSF, DRUM/DASI future proposal plans<br />
*Anna Kelbert - [https://drive.google.com/open?id=1XFHxruhasIRvZ3JDGtVtExZE6d87tM0X USGS Geomagnetism Program updates]<br />
*Peter Chi - update on ULTIMA activities / international collaboration<br />
*James Weygand - [https://drive.google.com/open?id=1Uq5ArdynNUk6ymbrBAcbFU9zbzH1eD3t Spherical Elementary Currents and Mid/Low Latitude Data Availability]<br />
*Walk-ins TBD (Amy Keesee/Mike Coughlin,...)<br />
<br />
<br />
== August 2020 Virtual Discussion: Ground Magnetometer Measurements for Heliophysics Research and Space Weather Monitoring ==<br />
<br />
Friday, 7 August, 1500-1630 EDT<br />
<br />
[https://drive.google.com/file/d/1uQ18wVmQC9de6zGn8wXVmXHvkomQPP63/view?usp=sharing Meeting Summary and Community Feedback from Google Form]<br />
<br />
Discussion from this meeting and previous meetings was summarized in this [https://drive.google.com/file/d/1-lrglV9h7OneMK8XK0yjnPk3XhhMMMNg/view?usp=sharing Heliophysics 2050 white paper].<br />
<br />
Invited Speakers<br />
* Syau-Yun Hsieh – [https://drive.google.com/file/d/1nRB6Xjc8F4tyGDtFHSoH6Tr3Kxh8hnkq/view?usp=sharing SMILE mission ground-based support]<br />
* Enrico Camporeale – [https://drive.google.com/file/d/1JiQTM6I4q9TIcEYDlHSfWwM1nkwaLjNS/view?usp=sharing Long-term continuous magnetometer data for geomagnetic activity prediction using machine learning]<br />
* Slava Merkin – [https://drive.google.com/file/d/1-nALz_h5IUMtUPPZKGQh3KNHS-GxbBqx/view?usp=sharing What is required of global magnetosphere-ionosphere-thermosphere models to predict ground magnetic perturbations]<br />
<br />
Project Updates<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/15fE4UXOXYYjACtDilek9s1DDd8h9ODho/view?usp=sharing SuperMAG]<br />
* Michelle Salzano, [https://drive.google.com/file/d/12fI2yM-q_fw-4-4cN_8Nsp3oECtohjPh/view?usp=sharing MICA]<br />
* Josh Rigler, [https://drive.google.com/file/d/1aYjQcO-56TyNB0U97bobyRVsu1D05iJo/view?usp=sharing USGS] <br />
* Jennifer Gannon, [https://drive.google.com/file/d/17KkpAGoV1OwOAsi8n6x3fTF2q6xk_CNV/view?usp=sharing MagStar]<br />
* Chuck Smith, [https://drive.google.com/file/d/1VuUgOTyFrrBxuvxmdbJoVgYeyEmAUgIw/view?usp=sharing Space Weather Underground]<br />
* Endawoke Yizengaw, iMAGS<br />
* Peter Chi, [https://drive.google.com/file/d/1CX26PkNjz_8mFhrmqX14ZxE1m8eO-Rw3/view?usp=sharing SMART]<br />
* Mark Moldwin, [https://drive.google.com/file/d/1zrSgS7iImyWW7rlXWtqheU4gWOLUS3LW/view?usp=sharing New Ground Mag and TEC/GPS system]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1thUuT5pZqMjWI4xR5ytT8IvXSRpBl72c/view?usp=sharing MACCS]<br />
* Don Hampton, [https://drive.google.com/file/d/1DQyBge17GT9r7Vjvjp5LYXio9yGUkLnU/view?usp=sharing GIMA]<br />
* Hyomin Kim, AGO<br />
* Mike Hartinger, [https://drive.google.com/file/d/1OArNCvEEsFdXwi7qmz9_WNQskhcRqBGW/view?usp=sharing AALPIP]<br />
<br />
== February 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research ==<br />
<br />
Thursday, 4 February, 1100-1230 US Eastern Time<br />
<br />
This virtual meeting will begin with an invited talk from Gary Egbert on current/future applications of ground magnetometers to geophysics research, including magnetotellurics research relevant to Heliophysics/GIC. This continues a series of discussions intended to gather feedback for the upcoming Heliophysics Decadal Survey.<br />
<br />
The rest of the meeting will be for updates from SuperMAG and individual magnetometer networks, NSF announcements, and discussion of magnetometer digital object identifiers.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
[https://agu.confex.com/agu/fm20/meetingapp.cgi/Paper/685551 Link] to Gary Egbert's 2020 AGU presentation, "Modeling Diurnal Variation Magnetic Fields for Mantle Induction Studies"<br />
<br />
* 1100-1105 Mike Hartinger, [https://drive.google.com/file/d/1FQUYC_Q0F3I97RAYrOsCN_piy9cu8OcG/view?usp=sharing Introduction and Updates on Digital Object Identifiers]<br />
* 1105-1125 Gary Egbert, [https://drive.google.com/file/d/1fvp4QiW5BpPxtlmopLaPxKp-x9SUX2Wx/view?usp=sharing Current and Future Applications of Ground Magnetometers to Geophysics Research]<br />
* 1125-1135 Jennifer Gannon, [https://drive.google.com/file/d/1AL3NasABl5eDSE-Gh71-MTcR8BuG-PpH/view?usp=sharing MagStar]<br />
* 1135-1145 Josh Rigler / Anna Kelbert, USGS Updates<br />
* 1145-1155 Whitham Reeve, [https://drive.google.com/file/d/1TUetaa2wE7W_b2-h0v3q287B0h6F8LzA/view?usp=sharing SAM-III]<br />
* 1155-1205 Rob Barnes / Matt Potter, [https://drive.google.com/file/d/1xXunj9lafw2m5C3AdDBHi6ZqTPpU-Jtf/view?usp=sharing SuperMAG Updates]<br />
* 1205-1215 [https://drive.google.com/file/d/1YDZB7mhG8rZS5EqzRIax4AvCL2wmm6q7/view?usp=sharing Collaboration tools and NSF opportunities]<br />
* 1215-1230 Additional Brief Project Updates: [https://drive.google.com/file/d/1R-SetUGvFfZyA0emtZtOxZ3WbjXXF2BN/view?usp=sharing MICA], [https://drive.google.com/file/d/1Z62YCvAGkvF2lJmHLAJOG3qtlFvYs09P/view?usp=sharing MACCS], [https://drive.google.com/file/d/1THwB7Cq0K5hhPhY_3BRh9R724FwXssD-/view?usp=sharing NJIT], [https://drive.google.com/file/d/17XYtKyofyw_1uRc1T69K2l7Qxiiccyau/view?usp=sharing AALPIP]<br />
<br />
== July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey ==<br />
<br />
Thursday, 8 July, 1200-1330 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey. The discussion began with several presentations related to open magnetometer science questions and infrastructure. The rest of the meeting was for open discussion on topics for magnetometer-related white papers for the decadal survey.<br />
<br />
[https://drive.google.com/file/d/1yEqAe-CuK0XQBLiP5vsrhEAg3LhRaIui/view?usp=sharing Meeting notes]<br />
<br />
* Mike Hartinger, [https://drive.google.com/file/d/1FVolkY5xVn4DeL_3TFQmLWIpcdl6vKHF/view?usp=sharing Overview of the Meeting, NSF Opportunities]<br />
* Adam Schultz, [https://drive.google.com/file/d/1iVcUlawbmcbkhyVZLdaLp1s-_f8QSKm7/view?usp=sharing Improving Situational Awareness of ground-level EM fields]<br />
* Dan Schneider, [https://drive.google.com/file/d/1KGiHVAEQkynAkKeqYFBwV0ynrrMAetke/view?usp=sharing QuakeFinder: Induction Coil Magnetometer Array]<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/1G4MGyKsbCIdBhNU0e3hoNqeA7HP_uZsD/view?usp=sharing SuperMAG news]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1pNoWfpl8XyaQ5qtKX1nMXJrzaxX3sIkk/view?usp=sharing Unresolved issues in MPE-GIC studies]<br />
<br />
== October 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (1) ==<br />
<br />
Thursday, 19 October, 1400-1530 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July 2021. This was a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== February 2022 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (2) ==<br />
<br />
Monday, 7 February, 1600-1700 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July and October 2021. The meeting started with a [https://drive.google.com/file/d/1TAjZPnhS60InWkukMMrVQh4rxzeZo0hd/view?usp=sharing presentation] discussing upcoming meetings and other announcements related to the Decadal Survey as well as plans for an over-arching ground magnetometer white paper. The remaining time was for a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== 2022 GEM Workshop meeting ==<br />
<br />
Monday, 20 June, 1030-1200 US Hawaii Time, Stingray room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2022 GEM workshop. The session will begin with an introduction to both groups followed by an invited talk by Dr. Chigomezyo Ngwira on geomagnetically induced currents and geomagnetic disturbances. The remainder of the session will be for discussion of Solar and Space Physics Decadal Survey white papers related to ground magnetometers and short magnetometer network updates.<br />
<br />
* 1030-1035 - Mike Hartinger, Overview of the US Ground Magnetometer Group<br />
* 1035-1040 - Xueling Shi, Overview of the new GEM GIC focus group<br />
* 1040-1100 - Chigomezyo Ngwira, Review of Geomagnetic Disturbances and GIC<br />
* 1100-1105 - Mike Hartinger, GMAG group decadal survey discussions overview<br />
* 1105-1110 - Mike Hartinger, Overarching magnetometer white paper<br />
* 1110-1115 - Jesper Gjerloev, Decadal survey white paper<br />
* 1115-1145 - General Q+A and discussion of decadal survey white paper topics<br />
* 1145-1200 - Magnetometer Network/SuperMAG Updates (1-slide/1-minute each): Jesper Gjerloev (SuperMAG), Shane Coyle (AALPIP), Shane Coyle (GPS Rollover), Michelle Salzano (MICA-S), Hyomin Kim (HamSCI magnetometer), Hyomin Kim (Deep polar cap Antarctic network), Josh Rigler (USGS magnetometer network), Mark Engebretson (MACCS - presenting virtually), Q+A<br />
<br />
== 2022 mini-GEM Workshop ==<br />
<br />
Sunday, 11 December, hybrid meeting<br />
<br />
The US magnetometer group participated in two joint sessions with the GEM GIC, MPEC, and IHMIC focus groups at the 2022 mini-GEM workshop. See the [https://gem.epss.ucla.edu/mediawiki/index.php/FG:_Understanding_the_causes_of_geomagnetic_disturbances_in_geospace_for_hazard_analysis_on_geomagnetically_induced_currents#2022_mini-GEM_Workshop_Meeting GIC FG wiki page] for details on the schedule.<br />
<br />
== 2023 GEM Workshop meeting ==<br />
<br />
Wednesday, 14 June, 1330-1500 US Pacific Time, Pacific A room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2023 GEM workshop.<br />
<br />
* 1330-1335 - Mike Hartinger, Overview of the US Ground Magnetometer Group and Recent Updates<br />
* 1335-1345 - Chia-Lin Huang, NSF updates<br />
* 1345-1350 - Jesper Gjerloev, SuperMAG updates<br />
* 1350-1355 - Peter Chi, ULTIMA updates<br />
* 1355-1400 - Discussion<br />
* 1400-1405 - Peter Chi, SMART network updates<br />
* 1405-1410 - Doga Ozturk, UAF SWUG Data Center<br />
* 1410-1415 - Zhonghua Xu, AALPIP network update<br />
* 1415-1420 - Hyomin Kim, NJIT update Antarctic geospace measurements<br />
* 1420-1425 - Mark Engebretson (virtual), MACCS network update and relevance to GDC/SMILE<br />
* 1425-1430 - Josh Rigler (virtual), USGS updates (observatories and variometers)<br />
* 1430-1435 - Mike Hartinger (for Shane Coyle), magget: A python module for finding and digesting ground magnetometer data from many modular data sources<br />
* 1435-1440 - Marc Lessard, Magnetic Induction Coil Array<br />
* 1432-1500 - General Q+A and discussion</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=US_Ground-based_magnetometer_arrays&diff=6255US Ground-based magnetometer arrays2023-06-12T14:55:14Z<p>Mdhartin: /* 2023 GEM Workshop meeting */</p>
<hr />
<div>=== US Ground Magnetometer Board ===<br />
<br />
This wiki page and related ground magnetometer board meetings are part of a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts. For more information about the current state and future of ground magnetometer networks in support of space weather monitoring and research, see this article in [https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017SW001718 Space Weather]. <br />
<br />
''Current Ground Magnetometer Board Members:''<br />
* Peter Chi<br />
* Mark Engebretson, (former chair)<br />
* Jennifer Gannon<br />
* Jesper Gjerloev<br />
* Michael Hartinger, (current chair, mhartinger@spacescience.org)<br />
* Hyomin Kim<br />
* Gang Lu<br />
* Josh Rigler<br />
* Michelle Salzano<br />
* Howard Singer<br />
* Endawoke Yizengaw<br />
<br />
''Former Ground Magnetometer Board Members:''<br />
* Carol Finn<br />
* Efthyia Zesta<br />
<br />
=== US-Sponsored Ground-Based Magnetometer Arrays and Programs* ===<br />
<br />
{| class="wikitable" style="width: 50%; height: 4em;"<br />
|-<br />
| Array || Location || Instruments || Manufacturer || No. of Locations<br />
|-<br />
| AAL-PIP || Antarctica || Fluxgate || Lviv Centre ISR || 6<br />
|-<br />
| AAL-PIP || Antarctica || Induction Coil || UNH || 4<br />
|-<br />
| AMBER || Africa || Fluxgate || UCLA || 7<br />
|-<br />
| AMBER || South America || Fluxgate || UCLA || 2<br />
|-<br />
| AMBER || East Asia || Fluxgate || UCLA || 4<br />
|-<br />
| Falcon || Continental US || Fluxgate || UCLA || 11<br />
|-<br />
| GIMA || Alaska || Fluxgate || Narod || 9<br />
|-<br />
| Jicamarca || South America || Fluxgate || UCLA || 2<br />
|-<br />
| LISN || South America || Fluxgate || Custom/Jicamarca || 6<br />
|-<br />
| MACCS || Arctic Canada || Fluxgate || Narod || 8<br />
|-<br />
| McMAC || Continental US & Mexico || Fluxgate || UCLA || 9<br />
|-<br />
| MEASURE || Continental US || Fluxgate || UCLA || 6<br />
|-<br />
| SAMBA || South America & Antarctica || Fluxgate || UCLA || 12<br />
|-<br />
| THEMIS || Continental US & Canada || Fluxgate || UCLA || 24<br />
|-<br />
| US Geological Survey || US & Territories || Fluxgate || Narod, Technical Univ of Denmark || 11<br />
|-<br />
| NJIT / AGO || Antarctica || Fluxgate || Bell Labs || 7<br />
|-<br />
| NJIT / AGO || Antarctica || Induction Coil || Tohoku University || 5<br />
|-<br />
| MICA || Antarctica || Induction Coil || UNH || 5<br />
|-<br />
| MICA || Arctic Canada || Induction Coil || UNH || 4<br />
|-<br />
| MICA || Svalbard || Induction Coil || UNH || 4<br />
|}<br />
<br />
*Some locations listed here have instruments that are not currently operating.<br />
<br />
=== Ground Magnetometer Data ===<br />
<br />
[http://supermag.jhuapl.edu/ SuperMAG]<br />
<br />
[https://www.usgs.gov/natural-hazards/geomagnetism/data-tools USGS Geomagnetism Program]<br />
<br />
[https://www.intermagnet.org/ INTERMAGNET]<br />
<br />
[http://vmo.igpp.ucla.edu/data1/SECS/Quicklook/ Spherical Elementary Currents] from James Weygand<br />
<br />
[http://themis.ssl.berkeley.edu/gmag/gmag_list.php?selyear=4000&selmonth=13&smap=on&sinfo=on&saelist=on&ae=on THEMIS]<br />
<br />
[https://cdaweb.gsfc.nasa.gov/index.html/ NASA CDAWeb]<br />
<br />
[http://mirl.unh.edu/ulf_status.html UNH Magnetic Induction Coil Array (MICA)]<br />
<br />
[http://search.iugonet.org/list.jsp IUGONET]<br />
<br />
=== Digital Object Identifiers for Ground Magnetometer Data ===<br />
<br />
Digital Object Identifiers (DOI) allow authors to cite data products just as they refer to papers. This is becoming a requirement of many journals, as it assures that the specific data used in a publication are findable and accessible. The DOI provides a permanent identifier (PID) for the data, remaining unchanged even if the data are moved to another archive. The "creators" (authors) of the data must link the DOI to a "landing page" that provides details about the data and methods for accessing them. Our group recommends that each ground magnetometer network generate DOIs for their datasets, at minimum one DOI for their original measurements (i.e., before filtering and other types of processing are performed).<br />
<br />
As a member of the [https://datacite.org DataCite organization], NASA Heliophysics (HP) can "mint" DOIs for ground magnetometer datasets. NASA HP is providing an easy means to assign DOIs to datasets using the HP Digital Resource Registry (HDRR) by providing landing pages for datasets based on their "SPASE" resource descriptions. As an example, any users of NASA's OMNI dataset can now use https://doi.org/10.48322/1shr-ht18 for the hourly dataset, and other DOIs for other sets, discoverable by a search with the Heliophysics Data Portal (HDP; https://heliophysicsdata.gsfc.nasa.gov; look for "omni" in the "observatory" entry at the left). More details for DOI initiation for resources in the HDP can be found [https://hpde.gsfc.nasa.gov/DOI_Initiative_October_2020.pdf here]. For further information, and especially to start the process of registering DOIs, contact James Weygand (jweygand@igpp.ucla.edu or jweygand@epss.ucla.edu).<br />
<br />
As noted above, a SPASE resource description is required for each magnetometer dataset to mint a DOI. Here's an example for the [https://drive.google.com/file/d/1MxEDFAa_grGuCdID9vwK9pRzkzH7FQYR/view?usp=sharing MACCS magnetometer network 5s measurements].<br />
<br />
== 2019 GEM workshop meeting ==<br />
<br />
The ground magnetometer advisory board was formed in 2016 as a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts.<br />
<br />
We invite the GEM community to attend our meeting on Monday, June 24 at 1:30 PM, where we’ll discuss updates on all the above items. Later this year, we’ll add new members to the advisory board who either operate ground magnetometers or use magnetometer data to support their scientific investigations and/or space weather monitoring efforts. If you’re interested in learning more about this opportunity, please attend this GEM meeting or contact Mike Hartinger (mdhartin@vt.edu).<br />
<br />
Monday, 24 June, 1:30 PM, Location: Santa Fe<br />
*Mike Hartinger - Updates on ground magnetometer advisory board activities<br />
*Mark Engebretson - Summary of information gathering report<br />
*Lisa Winter - NSF updates<br />
*Hyomin Kim - DRUM/DASI updates and future plans, discussion<br />
*Jesper Gjerloev - SuperMAG updates<br />
*Josh Rigler - USGS updates, updates from other magnetometer arrays<br />
<br />
== 2019 mini-GEM workshop meeting ==<br />
<br />
Sunday, 8 December, 1200-1330, Location: Oregon Room<br />
*Mike Hartinger - [https://drive.google.com/file/d/1f3nDkQU4Red2gBLe_I5z_z0LOTHRyfN8/view?usp=sharing Introduction and Overview of Advisory Board activities, updates on DOI and new instruments]<br />
*Howard Singer - [https://drive.google.com/file/d/16poHzPvIM60z9Z7E_qXHznRGL80cjRRY/view?usp=sharing How ground magnetometers are currently incorporated into forecasts at SWPC, how they could be incorporated in the future]<br />
*Jennifer Gannon - How ground magnetometers can best be used to monitor/investigate GIC, utility-grade magnetometers<br />
*Endawoke Yizengaw - Open discussion with NSF, DRUM/DASI future proposal plans<br />
*Anna Kelbert - [https://drive.google.com/open?id=1XFHxruhasIRvZ3JDGtVtExZE6d87tM0X USGS Geomagnetism Program updates]<br />
*Peter Chi - update on ULTIMA activities / international collaboration<br />
*James Weygand - [https://drive.google.com/open?id=1Uq5ArdynNUk6ymbrBAcbFU9zbzH1eD3t Spherical Elementary Currents and Mid/Low Latitude Data Availability]<br />
*Walk-ins TBD (Amy Keesee/Mike Coughlin,...)<br />
<br />
<br />
== August 2020 Virtual Discussion: Ground Magnetometer Measurements for Heliophysics Research and Space Weather Monitoring ==<br />
<br />
Friday, 7 August, 1500-1630 EDT<br />
<br />
[https://drive.google.com/file/d/1uQ18wVmQC9de6zGn8wXVmXHvkomQPP63/view?usp=sharing Meeting Summary and Community Feedback from Google Form]<br />
<br />
Discussion from this meeting and previous meetings was summarized in this [https://drive.google.com/file/d/1-lrglV9h7OneMK8XK0yjnPk3XhhMMMNg/view?usp=sharing Heliophysics 2050 white paper].<br />
<br />
Invited Speakers<br />
* Syau-Yun Hsieh – [https://drive.google.com/file/d/1nRB6Xjc8F4tyGDtFHSoH6Tr3Kxh8hnkq/view?usp=sharing SMILE mission ground-based support]<br />
* Enrico Camporeale – [https://drive.google.com/file/d/1JiQTM6I4q9TIcEYDlHSfWwM1nkwaLjNS/view?usp=sharing Long-term continuous magnetometer data for geomagnetic activity prediction using machine learning]<br />
* Slava Merkin – [https://drive.google.com/file/d/1-nALz_h5IUMtUPPZKGQh3KNHS-GxbBqx/view?usp=sharing What is required of global magnetosphere-ionosphere-thermosphere models to predict ground magnetic perturbations]<br />
<br />
Project Updates<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/15fE4UXOXYYjACtDilek9s1DDd8h9ODho/view?usp=sharing SuperMAG]<br />
* Michelle Salzano, [https://drive.google.com/file/d/12fI2yM-q_fw-4-4cN_8Nsp3oECtohjPh/view?usp=sharing MICA]<br />
* Josh Rigler, [https://drive.google.com/file/d/1aYjQcO-56TyNB0U97bobyRVsu1D05iJo/view?usp=sharing USGS] <br />
* Jennifer Gannon, [https://drive.google.com/file/d/17KkpAGoV1OwOAsi8n6x3fTF2q6xk_CNV/view?usp=sharing MagStar]<br />
* Chuck Smith, [https://drive.google.com/file/d/1VuUgOTyFrrBxuvxmdbJoVgYeyEmAUgIw/view?usp=sharing Space Weather Underground]<br />
* Endawoke Yizengaw, iMAGS<br />
* Peter Chi, [https://drive.google.com/file/d/1CX26PkNjz_8mFhrmqX14ZxE1m8eO-Rw3/view?usp=sharing SMART]<br />
* Mark Moldwin, [https://drive.google.com/file/d/1zrSgS7iImyWW7rlXWtqheU4gWOLUS3LW/view?usp=sharing New Ground Mag and TEC/GPS system]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1thUuT5pZqMjWI4xR5ytT8IvXSRpBl72c/view?usp=sharing MACCS]<br />
* Don Hampton, [https://drive.google.com/file/d/1DQyBge17GT9r7Vjvjp5LYXio9yGUkLnU/view?usp=sharing GIMA]<br />
* Hyomin Kim, AGO<br />
* Mike Hartinger, [https://drive.google.com/file/d/1OArNCvEEsFdXwi7qmz9_WNQskhcRqBGW/view?usp=sharing AALPIP]<br />
<br />
== February 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research ==<br />
<br />
Thursday, 4 February, 1100-1230 US Eastern Time<br />
<br />
This virtual meeting will begin with an invited talk from Gary Egbert on current/future applications of ground magnetometers to geophysics research, including magnetotellurics research relevant to Heliophysics/GIC. This continues a series of discussions intended to gather feedback for the upcoming Heliophysics Decadal Survey.<br />
<br />
The rest of the meeting will be for updates from SuperMAG and individual magnetometer networks, NSF announcements, and discussion of magnetometer digital object identifiers.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
[https://agu.confex.com/agu/fm20/meetingapp.cgi/Paper/685551 Link] to Gary Egbert's 2020 AGU presentation, "Modeling Diurnal Variation Magnetic Fields for Mantle Induction Studies"<br />
<br />
* 1100-1105 Mike Hartinger, [https://drive.google.com/file/d/1FQUYC_Q0F3I97RAYrOsCN_piy9cu8OcG/view?usp=sharing Introduction and Updates on Digital Object Identifiers]<br />
* 1105-1125 Gary Egbert, [https://drive.google.com/file/d/1fvp4QiW5BpPxtlmopLaPxKp-x9SUX2Wx/view?usp=sharing Current and Future Applications of Ground Magnetometers to Geophysics Research]<br />
* 1125-1135 Jennifer Gannon, [https://drive.google.com/file/d/1AL3NasABl5eDSE-Gh71-MTcR8BuG-PpH/view?usp=sharing MagStar]<br />
* 1135-1145 Josh Rigler / Anna Kelbert, USGS Updates<br />
* 1145-1155 Whitham Reeve, [https://drive.google.com/file/d/1TUetaa2wE7W_b2-h0v3q287B0h6F8LzA/view?usp=sharing SAM-III]<br />
* 1155-1205 Rob Barnes / Matt Potter, [https://drive.google.com/file/d/1xXunj9lafw2m5C3AdDBHi6ZqTPpU-Jtf/view?usp=sharing SuperMAG Updates]<br />
* 1205-1215 [https://drive.google.com/file/d/1YDZB7mhG8rZS5EqzRIax4AvCL2wmm6q7/view?usp=sharing Collaboration tools and NSF opportunities]<br />
* 1215-1230 Additional Brief Project Updates: [https://drive.google.com/file/d/1R-SetUGvFfZyA0emtZtOxZ3WbjXXF2BN/view?usp=sharing MICA], [https://drive.google.com/file/d/1Z62YCvAGkvF2lJmHLAJOG3qtlFvYs09P/view?usp=sharing MACCS], [https://drive.google.com/file/d/1THwB7Cq0K5hhPhY_3BRh9R724FwXssD-/view?usp=sharing NJIT], [https://drive.google.com/file/d/17XYtKyofyw_1uRc1T69K2l7Qxiiccyau/view?usp=sharing AALPIP]<br />
<br />
== July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey ==<br />
<br />
Thursday, 8 July, 1200-1330 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey. The discussion began with several presentations related to open magnetometer science questions and infrastructure. The rest of the meeting was for open discussion on topics for magnetometer-related white papers for the decadal survey.<br />
<br />
[https://drive.google.com/file/d/1yEqAe-CuK0XQBLiP5vsrhEAg3LhRaIui/view?usp=sharing Meeting notes]<br />
<br />
* Mike Hartinger, [https://drive.google.com/file/d/1FVolkY5xVn4DeL_3TFQmLWIpcdl6vKHF/view?usp=sharing Overview of the Meeting, NSF Opportunities]<br />
* Adam Schultz, [https://drive.google.com/file/d/1iVcUlawbmcbkhyVZLdaLp1s-_f8QSKm7/view?usp=sharing Improving Situational Awareness of ground-level EM fields]<br />
* Dan Schneider, [https://drive.google.com/file/d/1KGiHVAEQkynAkKeqYFBwV0ynrrMAetke/view?usp=sharing QuakeFinder: Induction Coil Magnetometer Array]<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/1G4MGyKsbCIdBhNU0e3hoNqeA7HP_uZsD/view?usp=sharing SuperMAG news]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1pNoWfpl8XyaQ5qtKX1nMXJrzaxX3sIkk/view?usp=sharing Unresolved issues in MPE-GIC studies]<br />
<br />
== October 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (1) ==<br />
<br />
Thursday, 19 October, 1400-1530 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July 2021. This was a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== February 2022 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (2) ==<br />
<br />
Monday, 7 February, 1600-1700 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July and October 2021. The meeting started with a [https://drive.google.com/file/d/1TAjZPnhS60InWkukMMrVQh4rxzeZo0hd/view?usp=sharing presentation] discussing upcoming meetings and other announcements related to the Decadal Survey as well as plans for an over-arching ground magnetometer white paper. The remaining time was for a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== 2022 GEM Workshop meeting ==<br />
<br />
Monday, 20 June, 1030-1200 US Hawaii Time, Stingray room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2022 GEM workshop. The session will begin with an introduction to both groups followed by an invited talk by Dr. Chigomezyo Ngwira on geomagnetically induced currents and geomagnetic disturbances. The remainder of the session will be for discussion of Solar and Space Physics Decadal Survey white papers related to ground magnetometers and short magnetometer network updates.<br />
<br />
* 1030-1035 - Mike Hartinger, Overview of the US Ground Magnetometer Group<br />
* 1035-1040 - Xueling Shi, Overview of the new GEM GIC focus group<br />
* 1040-1100 - Chigomezyo Ngwira, Review of Geomagnetic Disturbances and GIC<br />
* 1100-1105 - Mike Hartinger, GMAG group decadal survey discussions overview<br />
* 1105-1110 - Mike Hartinger, Overarching magnetometer white paper<br />
* 1110-1115 - Jesper Gjerloev, Decadal survey white paper<br />
* 1115-1145 - General Q+A and discussion of decadal survey white paper topics<br />
* 1145-1200 - Magnetometer Network/SuperMAG Updates (1-slide/1-minute each): Jesper Gjerloev (SuperMAG), Shane Coyle (AALPIP), Shane Coyle (GPS Rollover), Michelle Salzano (MICA-S), Hyomin Kim (HamSCI magnetometer), Hyomin Kim (Deep polar cap Antarctic network), Josh Rigler (USGS magnetometer network), Mark Engebretson (MACCS - presenting virtually), Q+A<br />
<br />
== 2022 mini-GEM Workshop ==<br />
<br />
Sunday, 11 December, hybrid meeting<br />
<br />
The US magnetometer group participated in two joint sessions with the GEM GIC, MPEC, and IHMIC focus groups at the 2022 mini-GEM workshop. See the [https://gem.epss.ucla.edu/mediawiki/index.php/FG:_Understanding_the_causes_of_geomagnetic_disturbances_in_geospace_for_hazard_analysis_on_geomagnetically_induced_currents#2022_mini-GEM_Workshop_Meeting GIC FG wiki page] for details on the schedule.<br />
<br />
== 2023 GEM Workshop meeting ==<br />
<br />
Wednesday, 14 June, 1330-1500 US Pacific Time, Pacific A room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2023 GEM workshop.<br />
<br />
* 1330-1335 - Mike Hartinger, Overview of the US Ground Magnetometer Group and Recent Updates<br />
* 1335-1345 - Chia-Lin Huang, NSF updates<br />
* 1345-1350 - Jesper Gjerloev, SuperMAG updates<br />
* 1350-1355 - Peter Chi, ULTIMA updates<br />
* 1355-1400 - Discussion<br />
* 1400-1405 - Peter Chi, SMART network updates<br />
* 1405-1410 - Doga Ozturk, UAF SWUG Data Center<br />
* 1410-1415 - Zhonghua Xu, AALPIP network update<br />
* 1415-1420 - Hyomin Kim, NJIT update Antarctic geospace measurements<br />
* 1420-1425 - Mark Engebretson (virtual), MACCS network update and relevance to GDC/SMILE<br />
* 1425-1430 - Josh Rigler (virtual), USGS updates (observatories and variometers)<br />
* 1430-1432 - Mike Hartinger (for Shane Coyle), magget: A python module for finding and digesting ground magnetometer data from many modular data sources <br />
* 1432-1500 - General Q+A and discussion</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=US_Ground-based_magnetometer_arrays&diff=6157US Ground-based magnetometer arrays2023-06-06T17:40:12Z<p>Mdhartin: </p>
<hr />
<div>=== US Ground Magnetometer Board ===<br />
<br />
This wiki page and related ground magnetometer board meetings are part of a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts. For more information about the current state and future of ground magnetometer networks in support of space weather monitoring and research, see this article in [https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017SW001718 Space Weather]. <br />
<br />
''Current Ground Magnetometer Board Members:''<br />
* Peter Chi<br />
* Mark Engebretson, (former chair)<br />
* Jennifer Gannon<br />
* Jesper Gjerloev<br />
* Michael Hartinger, (current chair, mhartinger@spacescience.org)<br />
* Hyomin Kim<br />
* Gang Lu<br />
* Josh Rigler<br />
* Michelle Salzano<br />
* Howard Singer<br />
* Endawoke Yizengaw<br />
<br />
''Former Ground Magnetometer Board Members:''<br />
* Carol Finn<br />
* Efthyia Zesta<br />
<br />
=== US-Sponsored Ground-Based Magnetometer Arrays and Programs* ===<br />
<br />
{| class="wikitable" style="width: 50%; height: 4em;"<br />
|-<br />
| Array || Location || Instruments || Manufacturer || No. of Locations<br />
|-<br />
| AAL-PIP || Antarctica || Fluxgate || Lviv Centre ISR || 6<br />
|-<br />
| AAL-PIP || Antarctica || Induction Coil || UNH || 4<br />
|-<br />
| AMBER || Africa || Fluxgate || UCLA || 7<br />
|-<br />
| AMBER || South America || Fluxgate || UCLA || 2<br />
|-<br />
| AMBER || East Asia || Fluxgate || UCLA || 4<br />
|-<br />
| Falcon || Continental US || Fluxgate || UCLA || 11<br />
|-<br />
| GIMA || Alaska || Fluxgate || Narod || 9<br />
|-<br />
| Jicamarca || South America || Fluxgate || UCLA || 2<br />
|-<br />
| LISN || South America || Fluxgate || Custom/Jicamarca || 6<br />
|-<br />
| MACCS || Arctic Canada || Fluxgate || Narod || 8<br />
|-<br />
| McMAC || Continental US & Mexico || Fluxgate || UCLA || 9<br />
|-<br />
| MEASURE || Continental US || Fluxgate || UCLA || 6<br />
|-<br />
| SAMBA || South America & Antarctica || Fluxgate || UCLA || 12<br />
|-<br />
| THEMIS || Continental US & Canada || Fluxgate || UCLA || 24<br />
|-<br />
| US Geological Survey || US & Territories || Fluxgate || Narod, Technical Univ of Denmark || 11<br />
|-<br />
| NJIT / AGO || Antarctica || Fluxgate || Bell Labs || 7<br />
|-<br />
| NJIT / AGO || Antarctica || Induction Coil || Tohoku University || 5<br />
|-<br />
| MICA || Antarctica || Induction Coil || UNH || 5<br />
|-<br />
| MICA || Arctic Canada || Induction Coil || UNH || 4<br />
|-<br />
| MICA || Svalbard || Induction Coil || UNH || 4<br />
|}<br />
<br />
*Some locations listed here have instruments that are not currently operating.<br />
<br />
=== Ground Magnetometer Data ===<br />
<br />
[http://supermag.jhuapl.edu/ SuperMAG]<br />
<br />
[https://www.usgs.gov/natural-hazards/geomagnetism/data-tools USGS Geomagnetism Program]<br />
<br />
[https://www.intermagnet.org/ INTERMAGNET]<br />
<br />
[http://vmo.igpp.ucla.edu/data1/SECS/Quicklook/ Spherical Elementary Currents] from James Weygand<br />
<br />
[http://themis.ssl.berkeley.edu/gmag/gmag_list.php?selyear=4000&selmonth=13&smap=on&sinfo=on&saelist=on&ae=on THEMIS]<br />
<br />
[https://cdaweb.gsfc.nasa.gov/index.html/ NASA CDAWeb]<br />
<br />
[http://mirl.unh.edu/ulf_status.html UNH Magnetic Induction Coil Array (MICA)]<br />
<br />
[http://search.iugonet.org/list.jsp IUGONET]<br />
<br />
=== Digital Object Identifiers for Ground Magnetometer Data ===<br />
<br />
Digital Object Identifiers (DOI) allow authors to cite data products just as they refer to papers. This is becoming a requirement of many journals, as it assures that the specific data used in a publication are findable and accessible. The DOI provides a permanent identifier (PID) for the data, remaining unchanged even if the data are moved to another archive. The "creators" (authors) of the data must link the DOI to a "landing page" that provides details about the data and methods for accessing them. Our group recommends that each ground magnetometer network generate DOIs for their datasets, at minimum one DOI for their original measurements (i.e., before filtering and other types of processing are performed).<br />
<br />
As a member of the [https://datacite.org DataCite organization], NASA Heliophysics (HP) can "mint" DOIs for ground magnetometer datasets. NASA HP is providing an easy means to assign DOIs to datasets using the HP Digital Resource Registry (HDRR) by providing landing pages for datasets based on their "SPASE" resource descriptions. As an example, any users of NASA's OMNI dataset can now use https://doi.org/10.48322/1shr-ht18 for the hourly dataset, and other DOIs for other sets, discoverable by a search with the Heliophysics Data Portal (HDP; https://heliophysicsdata.gsfc.nasa.gov; look for "omni" in the "observatory" entry at the left). More details for DOI initiation for resources in the HDP can be found [https://hpde.gsfc.nasa.gov/DOI_Initiative_October_2020.pdf here]. For further information, and especially to start the process of registering DOIs, contact James Weygand (jweygand@igpp.ucla.edu or jweygand@epss.ucla.edu).<br />
<br />
As noted above, a SPASE resource description is required for each magnetometer dataset to mint a DOI. Here's an example for the [https://drive.google.com/file/d/1MxEDFAa_grGuCdID9vwK9pRzkzH7FQYR/view?usp=sharing MACCS magnetometer network 5s measurements].<br />
<br />
== 2019 GEM workshop meeting ==<br />
<br />
The ground magnetometer advisory board was formed in 2016 as a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts.<br />
<br />
We invite the GEM community to attend our meeting on Monday, June 24 at 1:30 PM, where we’ll discuss updates on all the above items. Later this year, we’ll add new members to the advisory board who either operate ground magnetometers or use magnetometer data to support their scientific investigations and/or space weather monitoring efforts. If you’re interested in learning more about this opportunity, please attend this GEM meeting or contact Mike Hartinger (mdhartin@vt.edu).<br />
<br />
Monday, 24 June, 1:30 PM, Location: Santa Fe<br />
*Mike Hartinger - Updates on ground magnetometer advisory board activities<br />
*Mark Engebretson - Summary of information gathering report<br />
*Lisa Winter - NSF updates<br />
*Hyomin Kim - DRUM/DASI updates and future plans, discussion<br />
*Jesper Gjerloev - SuperMAG updates<br />
*Josh Rigler - USGS updates, updates from other magnetometer arrays<br />
<br />
== 2019 mini-GEM workshop meeting ==<br />
<br />
Sunday, 8 December, 1200-1330, Location: Oregon Room<br />
*Mike Hartinger - [https://drive.google.com/file/d/1f3nDkQU4Red2gBLe_I5z_z0LOTHRyfN8/view?usp=sharing Introduction and Overview of Advisory Board activities, updates on DOI and new instruments]<br />
*Howard Singer - [https://drive.google.com/file/d/16poHzPvIM60z9Z7E_qXHznRGL80cjRRY/view?usp=sharing How ground magnetometers are currently incorporated into forecasts at SWPC, how they could be incorporated in the future]<br />
*Jennifer Gannon - How ground magnetometers can best be used to monitor/investigate GIC, utility-grade magnetometers<br />
*Endawoke Yizengaw - Open discussion with NSF, DRUM/DASI future proposal plans<br />
*Anna Kelbert - [https://drive.google.com/open?id=1XFHxruhasIRvZ3JDGtVtExZE6d87tM0X USGS Geomagnetism Program updates]<br />
*Peter Chi - update on ULTIMA activities / international collaboration<br />
*James Weygand - [https://drive.google.com/open?id=1Uq5ArdynNUk6ymbrBAcbFU9zbzH1eD3t Spherical Elementary Currents and Mid/Low Latitude Data Availability]<br />
*Walk-ins TBD (Amy Keesee/Mike Coughlin,...)<br />
<br />
<br />
== August 2020 Virtual Discussion: Ground Magnetometer Measurements for Heliophysics Research and Space Weather Monitoring ==<br />
<br />
Friday, 7 August, 1500-1630 EDT<br />
<br />
[https://drive.google.com/file/d/1uQ18wVmQC9de6zGn8wXVmXHvkomQPP63/view?usp=sharing Meeting Summary and Community Feedback from Google Form]<br />
<br />
Discussion from this meeting and previous meetings was summarized in this [https://drive.google.com/file/d/1-lrglV9h7OneMK8XK0yjnPk3XhhMMMNg/view?usp=sharing Heliophysics 2050 white paper].<br />
<br />
Invited Speakers<br />
* Syau-Yun Hsieh – [https://drive.google.com/file/d/1nRB6Xjc8F4tyGDtFHSoH6Tr3Kxh8hnkq/view?usp=sharing SMILE mission ground-based support]<br />
* Enrico Camporeale – [https://drive.google.com/file/d/1JiQTM6I4q9TIcEYDlHSfWwM1nkwaLjNS/view?usp=sharing Long-term continuous magnetometer data for geomagnetic activity prediction using machine learning]<br />
* Slava Merkin – [https://drive.google.com/file/d/1-nALz_h5IUMtUPPZKGQh3KNHS-GxbBqx/view?usp=sharing What is required of global magnetosphere-ionosphere-thermosphere models to predict ground magnetic perturbations]<br />
<br />
Project Updates<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/15fE4UXOXYYjACtDilek9s1DDd8h9ODho/view?usp=sharing SuperMAG]<br />
* Michelle Salzano, [https://drive.google.com/file/d/12fI2yM-q_fw-4-4cN_8Nsp3oECtohjPh/view?usp=sharing MICA]<br />
* Josh Rigler, [https://drive.google.com/file/d/1aYjQcO-56TyNB0U97bobyRVsu1D05iJo/view?usp=sharing USGS] <br />
* Jennifer Gannon, [https://drive.google.com/file/d/17KkpAGoV1OwOAsi8n6x3fTF2q6xk_CNV/view?usp=sharing MagStar]<br />
* Chuck Smith, [https://drive.google.com/file/d/1VuUgOTyFrrBxuvxmdbJoVgYeyEmAUgIw/view?usp=sharing Space Weather Underground]<br />
* Endawoke Yizengaw, iMAGS<br />
* Peter Chi, [https://drive.google.com/file/d/1CX26PkNjz_8mFhrmqX14ZxE1m8eO-Rw3/view?usp=sharing SMART]<br />
* Mark Moldwin, [https://drive.google.com/file/d/1zrSgS7iImyWW7rlXWtqheU4gWOLUS3LW/view?usp=sharing New Ground Mag and TEC/GPS system]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1thUuT5pZqMjWI4xR5ytT8IvXSRpBl72c/view?usp=sharing MACCS]<br />
* Don Hampton, [https://drive.google.com/file/d/1DQyBge17GT9r7Vjvjp5LYXio9yGUkLnU/view?usp=sharing GIMA]<br />
* Hyomin Kim, AGO<br />
* Mike Hartinger, [https://drive.google.com/file/d/1OArNCvEEsFdXwi7qmz9_WNQskhcRqBGW/view?usp=sharing AALPIP]<br />
<br />
== February 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research ==<br />
<br />
Thursday, 4 February, 1100-1230 US Eastern Time<br />
<br />
This virtual meeting will begin with an invited talk from Gary Egbert on current/future applications of ground magnetometers to geophysics research, including magnetotellurics research relevant to Heliophysics/GIC. This continues a series of discussions intended to gather feedback for the upcoming Heliophysics Decadal Survey.<br />
<br />
The rest of the meeting will be for updates from SuperMAG and individual magnetometer networks, NSF announcements, and discussion of magnetometer digital object identifiers.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
[https://agu.confex.com/agu/fm20/meetingapp.cgi/Paper/685551 Link] to Gary Egbert's 2020 AGU presentation, "Modeling Diurnal Variation Magnetic Fields for Mantle Induction Studies"<br />
<br />
* 1100-1105 Mike Hartinger, [https://drive.google.com/file/d/1FQUYC_Q0F3I97RAYrOsCN_piy9cu8OcG/view?usp=sharing Introduction and Updates on Digital Object Identifiers]<br />
* 1105-1125 Gary Egbert, [https://drive.google.com/file/d/1fvp4QiW5BpPxtlmopLaPxKp-x9SUX2Wx/view?usp=sharing Current and Future Applications of Ground Magnetometers to Geophysics Research]<br />
* 1125-1135 Jennifer Gannon, [https://drive.google.com/file/d/1AL3NasABl5eDSE-Gh71-MTcR8BuG-PpH/view?usp=sharing MagStar]<br />
* 1135-1145 Josh Rigler / Anna Kelbert, USGS Updates<br />
* 1145-1155 Whitham Reeve, [https://drive.google.com/file/d/1TUetaa2wE7W_b2-h0v3q287B0h6F8LzA/view?usp=sharing SAM-III]<br />
* 1155-1205 Rob Barnes / Matt Potter, [https://drive.google.com/file/d/1xXunj9lafw2m5C3AdDBHi6ZqTPpU-Jtf/view?usp=sharing SuperMAG Updates]<br />
* 1205-1215 [https://drive.google.com/file/d/1YDZB7mhG8rZS5EqzRIax4AvCL2wmm6q7/view?usp=sharing Collaboration tools and NSF opportunities]<br />
* 1215-1230 Additional Brief Project Updates: [https://drive.google.com/file/d/1R-SetUGvFfZyA0emtZtOxZ3WbjXXF2BN/view?usp=sharing MICA], [https://drive.google.com/file/d/1Z62YCvAGkvF2lJmHLAJOG3qtlFvYs09P/view?usp=sharing MACCS], [https://drive.google.com/file/d/1THwB7Cq0K5hhPhY_3BRh9R724FwXssD-/view?usp=sharing NJIT], [https://drive.google.com/file/d/17XYtKyofyw_1uRc1T69K2l7Qxiiccyau/view?usp=sharing AALPIP]<br />
<br />
== July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey ==<br />
<br />
Thursday, 8 July, 1200-1330 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey. The discussion began with several presentations related to open magnetometer science questions and infrastructure. The rest of the meeting was for open discussion on topics for magnetometer-related white papers for the decadal survey.<br />
<br />
[https://drive.google.com/file/d/1yEqAe-CuK0XQBLiP5vsrhEAg3LhRaIui/view?usp=sharing Meeting notes]<br />
<br />
* Mike Hartinger, [https://drive.google.com/file/d/1FVolkY5xVn4DeL_3TFQmLWIpcdl6vKHF/view?usp=sharing Overview of the Meeting, NSF Opportunities]<br />
* Adam Schultz, [https://drive.google.com/file/d/1iVcUlawbmcbkhyVZLdaLp1s-_f8QSKm7/view?usp=sharing Improving Situational Awareness of ground-level EM fields]<br />
* Dan Schneider, [https://drive.google.com/file/d/1KGiHVAEQkynAkKeqYFBwV0ynrrMAetke/view?usp=sharing QuakeFinder: Induction Coil Magnetometer Array]<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/1G4MGyKsbCIdBhNU0e3hoNqeA7HP_uZsD/view?usp=sharing SuperMAG news]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1pNoWfpl8XyaQ5qtKX1nMXJrzaxX3sIkk/view?usp=sharing Unresolved issues in MPE-GIC studies]<br />
<br />
== October 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (1) ==<br />
<br />
Thursday, 19 October, 1400-1530 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July 2021. This was a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== February 2022 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (2) ==<br />
<br />
Monday, 7 February, 1600-1700 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July and October 2021. The meeting started with a [https://drive.google.com/file/d/1TAjZPnhS60InWkukMMrVQh4rxzeZo0hd/view?usp=sharing presentation] discussing upcoming meetings and other announcements related to the Decadal Survey as well as plans for an over-arching ground magnetometer white paper. The remaining time was for a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== 2022 GEM Workshop meeting ==<br />
<br />
Monday, 20 June, 1030-1200 US Hawaii Time, Stingray room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2022 GEM workshop. The session will begin with an introduction to both groups followed by an invited talk by Dr. Chigomezyo Ngwira on geomagnetically induced currents and geomagnetic disturbances. The remainder of the session will be for discussion of Solar and Space Physics Decadal Survey white papers related to ground magnetometers and short magnetometer network updates.<br />
<br />
* 1030-1035 - Mike Hartinger, Overview of the US Ground Magnetometer Group<br />
* 1035-1040 - Xueling Shi, Overview of the new GEM GIC focus group<br />
* 1040-1100 - Chigomezyo Ngwira, Review of Geomagnetic Disturbances and GIC<br />
* 1100-1105 - Mike Hartinger, GMAG group decadal survey discussions overview<br />
* 1105-1110 - Mike Hartinger, Overarching magnetometer white paper<br />
* 1110-1115 - Jesper Gjerloev, Decadal survey white paper<br />
* 1115-1145 - General Q+A and discussion of decadal survey white paper topics<br />
* 1145-1200 - Magnetometer Network/SuperMAG Updates (1-slide/1-minute each): Jesper Gjerloev (SuperMAG), Shane Coyle (AALPIP), Shane Coyle (GPS Rollover), Michelle Salzano (MICA-S), Hyomin Kim (HamSCI magnetometer), Hyomin Kim (Deep polar cap Antarctic network), Josh Rigler (USGS magnetometer network), Mark Engebretson (MACCS - presenting virtually), Q+A<br />
<br />
== 2022 mini-GEM Workshop ==<br />
<br />
Sunday, 11 December, hybrid meeting<br />
<br />
The US magnetometer group participated in two joint sessions with the GEM GIC, MPEC, and IHMIC focus groups at the 2022 mini-GEM workshop. See the [https://gem.epss.ucla.edu/mediawiki/index.php/FG:_Understanding_the_causes_of_geomagnetic_disturbances_in_geospace_for_hazard_analysis_on_geomagnetically_induced_currents#2022_mini-GEM_Workshop_Meeting GIC FG wiki page] for details on the schedule.<br />
<br />
== 2023 GEM Workshop meeting ==<br />
<br />
Wednesday, 14 June, 1330-1500 US Pacific Time, Pacific A room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2023 GEM workshop.<br />
<br />
* 1330-1335 - Mike Hartinger, Overview of the US Ground Magnetometer Group and Recent Updates<br />
* 1335-1345 - Chia-Lin Huang, NSF updates<br />
* 1345-1350 - Jesper Gjerloev, SuperMAG updates<br />
* 1350-1355 - Peter Chi, ULTIMA updates<br />
* 1355-1400 - Discussion<br />
* 1400-1405 - Peter Chi, SMART network updates<br />
* 1405-1410 - Doga Ozturk, UAF SWUG Data Center<br />
* 1410-1415 - Zhonghua Xu, AALPIP network update<br />
* 1415-1420 - Hyomin Kim, NJIT update Antarctic geospace measurements<br />
* 1420-1425 - Mark Engebretson (virtual), MACCS network update and relevance to GDC/SMILE<br />
* 1425-1430 - Josh Rigler (virtual), USGS updates (observatories and variometers)<br />
* 1430-1500 - General Q+A and discussion</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=US_Ground-based_magnetometer_arrays&diff=6025US Ground-based magnetometer arrays2022-12-11T19:39:11Z<p>Mdhartin: </p>
<hr />
<div>=== US Ground Magnetometer Board ===<br />
<br />
This wiki page and related ground magnetometer board meetings are part of a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts. For more information about the current state and future of ground magnetometer networks in support of space weather monitoring and research, see this article in [https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017SW001718 Space Weather]. <br />
<br />
''Current Ground Magnetometer Board Members:''<br />
* Peter Chi<br />
* Mark Engebretson, (former chair)<br />
* Jennifer Gannon<br />
* Jesper Gjerloev<br />
* Michael Hartinger, (current chair, mhartinger@spacescience.org)<br />
* Hyomin Kim<br />
* Gang Lu<br />
* Josh Rigler<br />
* Michelle Salzano<br />
* Howard Singer<br />
* Endawoke Yizengaw<br />
<br />
''Former Ground Magnetometer Board Members:''<br />
* Carol Finn<br />
* Efthyia Zesta<br />
<br />
=== US-Sponsored Ground-Based Magnetometer Arrays and Programs* ===<br />
<br />
{| class="wikitable" style="width: 50%; height: 4em;"<br />
|-<br />
| Array || Location || Instruments || Manufacturer || No. of Locations<br />
|-<br />
| AAL-PIP || Antarctica || Fluxgate || Lviv Centre ISR || 6<br />
|-<br />
| AAL-PIP || Antarctica || Induction Coil || UNH || 4<br />
|-<br />
| AMBER || Africa || Fluxgate || UCLA || 7<br />
|-<br />
| AMBER || South America || Fluxgate || UCLA || 2<br />
|-<br />
| AMBER || East Asia || Fluxgate || UCLA || 4<br />
|-<br />
| Falcon || Continental US || Fluxgate || UCLA || 11<br />
|-<br />
| GIMA || Alaska || Fluxgate || Narod || 9<br />
|-<br />
| Jicamarca || South America || Fluxgate || UCLA || 2<br />
|-<br />
| LISN || South America || Fluxgate || Custom/Jicamarca || 6<br />
|-<br />
| MACCS || Arctic Canada || Fluxgate || Narod || 8<br />
|-<br />
| McMAC || Continental US & Mexico || Fluxgate || UCLA || 9<br />
|-<br />
| MEASURE || Continental US || Fluxgate || UCLA || 6<br />
|-<br />
| SAMBA || South America & Antarctica || Fluxgate || UCLA || 12<br />
|-<br />
| THEMIS || Continental US & Canada || Fluxgate || UCLA || 24<br />
|-<br />
| US Geological Survey || US & Territories || Fluxgate || Narod, Technical Univ of Denmark || 11<br />
|-<br />
| NJIT / AGO || Antarctica || Fluxgate || Bell Labs || 7<br />
|-<br />
| NJIT / AGO || Antarctica || Induction Coil || Tohoku University || 5<br />
|-<br />
| MICA || Antarctica || Induction Coil || UNH || 5<br />
|-<br />
| MICA || Arctic Canada || Induction Coil || UNH || 4<br />
|-<br />
| MICA || Svalbard || Induction Coil || UNH || 4<br />
|}<br />
<br />
*Some locations listed here have instruments that are not currently operating.<br />
<br />
=== Ground Magnetometer Data ===<br />
<br />
[http://supermag.jhuapl.edu/ SuperMAG]<br />
<br />
[https://www.usgs.gov/natural-hazards/geomagnetism/data-tools USGS Geomagnetism Program]<br />
<br />
[https://www.intermagnet.org/ INTERMAGNET]<br />
<br />
[http://vmo.igpp.ucla.edu/data1/SECS/Quicklook/ Spherical Elementary Currents] from James Weygand<br />
<br />
[http://themis.ssl.berkeley.edu/gmag/gmag_list.php?selyear=4000&selmonth=13&smap=on&sinfo=on&saelist=on&ae=on THEMIS]<br />
<br />
[https://cdaweb.gsfc.nasa.gov/index.html/ NASA CDAWeb]<br />
<br />
[http://mirl.unh.edu/ulf_status.html UNH Magnetic Induction Coil Array (MICA)]<br />
<br />
[http://search.iugonet.org/list.jsp IUGONET]<br />
<br />
=== Digital Object Identifiers for Ground Magnetometer Data ===<br />
<br />
Digital Object Identifiers (DOI) allow authors to cite data products just as they refer to papers. This is becoming a requirement of many journals, as it assures that the specific data used in a publication are findable and accessible. The DOI provides a permanent identifier (PID) for the data, remaining unchanged even if the data are moved to another archive. The "creators" (authors) of the data must link the DOI to a "landing page" that provides details about the data and methods for accessing them. Our group recommends that each ground magnetometer network generate DOIs for their datasets, at minimum one DOI for their original measurements (i.e., before filtering and other types of processing are performed).<br />
<br />
As a member of the [https://datacite.org DataCite organization], NASA Heliophysics (HP) can "mint" DOIs for ground magnetometer datasets. NASA HP is providing an easy means to assign DOIs to datasets using the HP Digital Resource Registry (HDRR) by providing landing pages for datasets based on their "SPASE" resource descriptions. As an example, any users of NASA's OMNI dataset can now use https://doi.org/10.48322/1shr-ht18 for the hourly dataset, and other DOIs for other sets, discoverable by a search with the Heliophysics Data Portal (HDP; https://heliophysicsdata.gsfc.nasa.gov; look for "omni" in the "observatory" entry at the left). More details for DOI initiation for resources in the HDP can be found [https://hpde.gsfc.nasa.gov/DOI_Initiative_October_2020.pdf here]. For further information, and especially to start the process of registering DOIs, contact James Weygand (jweygand@igpp.ucla.edu or jweygand@epss.ucla.edu).<br />
<br />
As noted above, a SPASE resource description is required for each magnetometer dataset to mint a DOI. Here's an example for the [https://drive.google.com/file/d/1MxEDFAa_grGuCdID9vwK9pRzkzH7FQYR/view?usp=sharing MACCS magnetometer network 5s measurements].<br />
<br />
== 2019 GEM workshop meeting ==<br />
<br />
The ground magnetometer advisory board was formed in 2016 as a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts.<br />
<br />
We invite the GEM community to attend our meeting on Monday, June 24 at 1:30 PM, where we’ll discuss updates on all the above items. Later this year, we’ll add new members to the advisory board who either operate ground magnetometers or use magnetometer data to support their scientific investigations and/or space weather monitoring efforts. If you’re interested in learning more about this opportunity, please attend this GEM meeting or contact Mike Hartinger (mdhartin@vt.edu).<br />
<br />
Monday, 24 June, 1:30 PM, Location: Santa Fe<br />
*Mike Hartinger - Updates on ground magnetometer advisory board activities<br />
*Mark Engebretson - Summary of information gathering report<br />
*Lisa Winter - NSF updates<br />
*Hyomin Kim - DRUM/DASI updates and future plans, discussion<br />
*Jesper Gjerloev - SuperMAG updates<br />
*Josh Rigler - USGS updates, updates from other magnetometer arrays<br />
<br />
== 2019 mini-GEM workshop meeting ==<br />
<br />
Sunday, 8 December, 1200-1330, Location: Oregon Room<br />
*Mike Hartinger - [https://drive.google.com/file/d/1f3nDkQU4Red2gBLe_I5z_z0LOTHRyfN8/view?usp=sharing Introduction and Overview of Advisory Board activities, updates on DOI and new instruments]<br />
*Howard Singer - [https://drive.google.com/file/d/16poHzPvIM60z9Z7E_qXHznRGL80cjRRY/view?usp=sharing How ground magnetometers are currently incorporated into forecasts at SWPC, how they could be incorporated in the future]<br />
*Jennifer Gannon - How ground magnetometers can best be used to monitor/investigate GIC, utility-grade magnetometers<br />
*Endawoke Yizengaw - Open discussion with NSF, DRUM/DASI future proposal plans<br />
*Anna Kelbert - [https://drive.google.com/open?id=1XFHxruhasIRvZ3JDGtVtExZE6d87tM0X USGS Geomagnetism Program updates]<br />
*Peter Chi - update on ULTIMA activities / international collaboration<br />
*James Weygand - [https://drive.google.com/open?id=1Uq5ArdynNUk6ymbrBAcbFU9zbzH1eD3t Spherical Elementary Currents and Mid/Low Latitude Data Availability]<br />
*Walk-ins TBD (Amy Keesee/Mike Coughlin,...)<br />
<br />
<br />
== August 2020 Virtual Discussion: Ground Magnetometer Measurements for Heliophysics Research and Space Weather Monitoring ==<br />
<br />
Friday, 7 August, 1500-1630 EDT<br />
<br />
[https://drive.google.com/file/d/1uQ18wVmQC9de6zGn8wXVmXHvkomQPP63/view?usp=sharing Meeting Summary and Community Feedback from Google Form]<br />
<br />
Discussion from this meeting and previous meetings was summarized in this [https://drive.google.com/file/d/1-lrglV9h7OneMK8XK0yjnPk3XhhMMMNg/view?usp=sharing Heliophysics 2050 white paper].<br />
<br />
Invited Speakers<br />
* Syau-Yun Hsieh – [https://drive.google.com/file/d/1nRB6Xjc8F4tyGDtFHSoH6Tr3Kxh8hnkq/view?usp=sharing SMILE mission ground-based support]<br />
* Enrico Camporeale – [https://drive.google.com/file/d/1JiQTM6I4q9TIcEYDlHSfWwM1nkwaLjNS/view?usp=sharing Long-term continuous magnetometer data for geomagnetic activity prediction using machine learning]<br />
* Slava Merkin – [https://drive.google.com/file/d/1-nALz_h5IUMtUPPZKGQh3KNHS-GxbBqx/view?usp=sharing What is required of global magnetosphere-ionosphere-thermosphere models to predict ground magnetic perturbations]<br />
<br />
Project Updates<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/15fE4UXOXYYjACtDilek9s1DDd8h9ODho/view?usp=sharing SuperMAG]<br />
* Michelle Salzano, [https://drive.google.com/file/d/12fI2yM-q_fw-4-4cN_8Nsp3oECtohjPh/view?usp=sharing MICA]<br />
* Josh Rigler, [https://drive.google.com/file/d/1aYjQcO-56TyNB0U97bobyRVsu1D05iJo/view?usp=sharing USGS] <br />
* Jennifer Gannon, [https://drive.google.com/file/d/17KkpAGoV1OwOAsi8n6x3fTF2q6xk_CNV/view?usp=sharing MagStar]<br />
* Chuck Smith, [https://drive.google.com/file/d/1VuUgOTyFrrBxuvxmdbJoVgYeyEmAUgIw/view?usp=sharing Space Weather Underground]<br />
* Endawoke Yizengaw, iMAGS<br />
* Peter Chi, [https://drive.google.com/file/d/1CX26PkNjz_8mFhrmqX14ZxE1m8eO-Rw3/view?usp=sharing SMART]<br />
* Mark Moldwin, [https://drive.google.com/file/d/1zrSgS7iImyWW7rlXWtqheU4gWOLUS3LW/view?usp=sharing New Ground Mag and TEC/GPS system]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1thUuT5pZqMjWI4xR5ytT8IvXSRpBl72c/view?usp=sharing MACCS]<br />
* Don Hampton, [https://drive.google.com/file/d/1DQyBge17GT9r7Vjvjp5LYXio9yGUkLnU/view?usp=sharing GIMA]<br />
* Hyomin Kim, AGO<br />
* Mike Hartinger, [https://drive.google.com/file/d/1OArNCvEEsFdXwi7qmz9_WNQskhcRqBGW/view?usp=sharing AALPIP]<br />
<br />
== February 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research ==<br />
<br />
Thursday, 4 February, 1100-1230 US Eastern Time<br />
<br />
This virtual meeting will begin with an invited talk from Gary Egbert on current/future applications of ground magnetometers to geophysics research, including magnetotellurics research relevant to Heliophysics/GIC. This continues a series of discussions intended to gather feedback for the upcoming Heliophysics Decadal Survey.<br />
<br />
The rest of the meeting will be for updates from SuperMAG and individual magnetometer networks, NSF announcements, and discussion of magnetometer digital object identifiers.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
[https://agu.confex.com/agu/fm20/meetingapp.cgi/Paper/685551 Link] to Gary Egbert's 2020 AGU presentation, "Modeling Diurnal Variation Magnetic Fields for Mantle Induction Studies"<br />
<br />
* 1100-1105 Mike Hartinger, [https://drive.google.com/file/d/1FQUYC_Q0F3I97RAYrOsCN_piy9cu8OcG/view?usp=sharing Introduction and Updates on Digital Object Identifiers]<br />
* 1105-1125 Gary Egbert, [https://drive.google.com/file/d/1fvp4QiW5BpPxtlmopLaPxKp-x9SUX2Wx/view?usp=sharing Current and Future Applications of Ground Magnetometers to Geophysics Research]<br />
* 1125-1135 Jennifer Gannon, [https://drive.google.com/file/d/1AL3NasABl5eDSE-Gh71-MTcR8BuG-PpH/view?usp=sharing MagStar]<br />
* 1135-1145 Josh Rigler / Anna Kelbert, USGS Updates<br />
* 1145-1155 Whitham Reeve, [https://drive.google.com/file/d/1TUetaa2wE7W_b2-h0v3q287B0h6F8LzA/view?usp=sharing SAM-III]<br />
* 1155-1205 Rob Barnes / Matt Potter, [https://drive.google.com/file/d/1xXunj9lafw2m5C3AdDBHi6ZqTPpU-Jtf/view?usp=sharing SuperMAG Updates]<br />
* 1205-1215 [https://drive.google.com/file/d/1YDZB7mhG8rZS5EqzRIax4AvCL2wmm6q7/view?usp=sharing Collaboration tools and NSF opportunities]<br />
* 1215-1230 Additional Brief Project Updates: [https://drive.google.com/file/d/1R-SetUGvFfZyA0emtZtOxZ3WbjXXF2BN/view?usp=sharing MICA], [https://drive.google.com/file/d/1Z62YCvAGkvF2lJmHLAJOG3qtlFvYs09P/view?usp=sharing MACCS], [https://drive.google.com/file/d/1THwB7Cq0K5hhPhY_3BRh9R724FwXssD-/view?usp=sharing NJIT], [https://drive.google.com/file/d/17XYtKyofyw_1uRc1T69K2l7Qxiiccyau/view?usp=sharing AALPIP]<br />
<br />
== July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey ==<br />
<br />
Thursday, 8 July, 1200-1330 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey. The discussion began with several presentations related to open magnetometer science questions and infrastructure. The rest of the meeting was for open discussion on topics for magnetometer-related white papers for the decadal survey.<br />
<br />
[https://drive.google.com/file/d/1yEqAe-CuK0XQBLiP5vsrhEAg3LhRaIui/view?usp=sharing Meeting notes]<br />
<br />
* Mike Hartinger, [https://drive.google.com/file/d/1FVolkY5xVn4DeL_3TFQmLWIpcdl6vKHF/view?usp=sharing Overview of the Meeting, NSF Opportunities]<br />
* Adam Schultz, [https://drive.google.com/file/d/1iVcUlawbmcbkhyVZLdaLp1s-_f8QSKm7/view?usp=sharing Improving Situational Awareness of ground-level EM fields]<br />
* Dan Schneider, [https://drive.google.com/file/d/1KGiHVAEQkynAkKeqYFBwV0ynrrMAetke/view?usp=sharing QuakeFinder: Induction Coil Magnetometer Array]<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/1G4MGyKsbCIdBhNU0e3hoNqeA7HP_uZsD/view?usp=sharing SuperMAG news]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1pNoWfpl8XyaQ5qtKX1nMXJrzaxX3sIkk/view?usp=sharing Unresolved issues in MPE-GIC studies]<br />
<br />
== October 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (1) ==<br />
<br />
Thursday, 19 October, 1400-1530 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July 2021. This was a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== February 2022 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (2) ==<br />
<br />
Monday, 7 February, 1600-1700 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July and October 2021. The meeting started with a [https://drive.google.com/file/d/1TAjZPnhS60InWkukMMrVQh4rxzeZo0hd/view?usp=sharing presentation] discussing upcoming meetings and other announcements related to the Decadal Survey as well as plans for an over-arching ground magnetometer white paper. The remaining time was for a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== 2022 GEM Workshop meeting ==<br />
<br />
Monday, 20 June, 1030-1200 US Hawaii Time, Stingray room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2022 GEM workshop. The session will begin with an introduction to both groups followed by an invited talk by Dr. Chigomezyo Ngwira on geomagnetically induced currents and geomagnetic disturbances. The remainder of the session will be for discussion of Solar and Space Physics Decadal Survey white papers related to ground magnetometers and short magnetometer network updates.<br />
<br />
* 1030-1035 - Mike Hartinger, Overview of the US Ground Magnetometer Group<br />
* 1035-1040 - Xueling Shi, Overview of the new GEM GIC focus group<br />
* 1040-1100 - Chigomezyo Ngwira, Review of Geomagnetic Disturbances and GIC<br />
* 1100-1105 - Mike Hartinger, GMAG group decadal survey discussions overview<br />
* 1105-1110 - Mike Hartinger, Overarching magnetometer white paper<br />
* 1110-1115 - Jesper Gjerloev, Decadal survey white paper<br />
* 1115-1145 - General Q+A and discussion of decadal survey white paper topics<br />
* 1145-1200 - Magnetometer Network/SuperMAG Updates (1-slide/1-minute each): Jesper Gjerloev (SuperMAG), Shane Coyle (AALPIP), Shane Coyle (GPS Rollover), Michelle Salzano (MICA-S), Hyomin Kim (HamSCI magnetometer), Hyomin Kim (Deep polar cap Antarctic network), Josh Rigler (USGS magnetometer network), Mark Engebretson (MACCS - presenting virtually), Q+A<br />
<br />
== 2022 mini-GEM Workshop ==<br />
<br />
Sunday, 11 December, hybrid meeting<br />
<br />
The US magnetometer group participated in two joint sessions with the GEM GIC, MPEC, and IHMIC focus groups at the 2022 mini-GEM workshop. See the [https://gem.epss.ucla.edu/mediawiki/index.php/FG:_Understanding_the_causes_of_geomagnetic_disturbances_in_geospace_for_hazard_analysis_on_geomagnetically_induced_currents#2022_mini-GEM_Workshop_Meeting GIC FG wiki page] for details on the schedule.</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=US_Ground-based_magnetometer_arrays&diff=5824US Ground-based magnetometer arrays2022-06-16T19:41:16Z<p>Mdhartin: /* 2022 GEM Workshop meeting */</p>
<hr />
<div>=== US Ground Magnetometer Board ===<br />
<br />
This wiki page and related ground magnetometer board meetings are part of a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts. For more information about the current state and future of ground magnetometer networks in support of space weather monitoring and research, see this article in [https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017SW001718 Space Weather]. <br />
<br />
''Current Ground Magnetometer Board Members:''<br />
* Peter Chi<br />
* Mark Engebretson, (former chair)<br />
* Jennifer Gannon<br />
* Jesper Gjerloev<br />
* Michael Hartinger, (current chair, mhartinger@spacescience.org)<br />
* Hyomin Kim<br />
* Gang Lu<br />
* Josh Rigler<br />
* Michelle Salzano<br />
* Howard Singer<br />
* Endawoke Yizengaw<br />
<br />
''Former Ground Magnetometer Board Members:''<br />
* Carol Finn<br />
* Efthyia Zesta<br />
<br />
=== US-Sponsored Ground-Based Magnetometer Arrays and Programs* ===<br />
<br />
{| class="wikitable" style="width: 50%; height: 4em;"<br />
|-<br />
| Array || Location || Instruments || Manufacturer || No. of Locations<br />
|-<br />
| AAL-PIP || Antarctica || Fluxgate || Lviv Centre ISR || 6<br />
|-<br />
| AAL-PIP || Antarctica || Induction Coil || UNH || 4<br />
|-<br />
| AMBER || Africa || Fluxgate || UCLA || 7<br />
|-<br />
| AMBER || South America || Fluxgate || UCLA || 2<br />
|-<br />
| AMBER || East Asia || Fluxgate || UCLA || 4<br />
|-<br />
| Falcon || Continental US || Fluxgate || UCLA || 11<br />
|-<br />
| GIMA || Alaska || Fluxgate || Narod || 9<br />
|-<br />
| Jicamarca || South America || Fluxgate || UCLA || 2<br />
|-<br />
| LISN || South America || Fluxgate || Custom/Jicamarca || 6<br />
|-<br />
| MACCS || Arctic Canada || Fluxgate || Narod || 8<br />
|-<br />
| McMAC || Continental US & Mexico || Fluxgate || UCLA || 9<br />
|-<br />
| MEASURE || Continental US || Fluxgate || UCLA || 6<br />
|-<br />
| SAMBA || South America & Antarctica || Fluxgate || UCLA || 12<br />
|-<br />
| THEMIS || Continental US & Canada || Fluxgate || UCLA || 24<br />
|-<br />
| US Geological Survey || US & Territories || Fluxgate || Narod, Technical Univ of Denmark || 11<br />
|-<br />
| NJIT / AGO || Antarctica || Fluxgate || Bell Labs || 7<br />
|-<br />
| NJIT / AGO || Antarctica || Induction Coil || Tohoku University || 5<br />
|-<br />
| MICA || Antarctica || Induction Coil || UNH || 5<br />
|-<br />
| MICA || Arctic Canada || Induction Coil || UNH || 4<br />
|-<br />
| MICA || Svalbard || Induction Coil || UNH || 4<br />
|}<br />
<br />
*Some locations listed here have instruments that are not currently operating.<br />
<br />
=== Ground Magnetometer Data ===<br />
<br />
[http://supermag.jhuapl.edu/ SuperMAG]<br />
<br />
[https://www.usgs.gov/natural-hazards/geomagnetism/data-tools USGS Geomagnetism Program]<br />
<br />
[https://www.intermagnet.org/ INTERMAGNET]<br />
<br />
[http://vmo.igpp.ucla.edu/data1/SECS/Quicklook/ Spherical Elementary Currents] from James Weygand<br />
<br />
[http://themis.ssl.berkeley.edu/gmag/gmag_list.php?selyear=4000&selmonth=13&smap=on&sinfo=on&saelist=on&ae=on THEMIS]<br />
<br />
[https://cdaweb.gsfc.nasa.gov/index.html/ NASA CDAWeb]<br />
<br />
[http://mirl.unh.edu/ulf_status.html UNH Magnetic Induction Coil Array (MICA)]<br />
<br />
[http://search.iugonet.org/list.jsp IUGONET]<br />
<br />
=== Digital Object Identifiers for Ground Magnetometer Data ===<br />
<br />
Digital Object Identifiers (DOI) allow authors to cite data products just as they refer to papers. This is becoming a requirement of many journals, as it assures that the specific data used in a publication are findable and accessible. The DOI provides a permanent identifier (PID) for the data, remaining unchanged even if the data are moved to another archive. The "creators" (authors) of the data must link the DOI to a "landing page" that provides details about the data and methods for accessing them. Our group recommends that each ground magnetometer network generate DOIs for their datasets, at minimum one DOI for their original measurements (i.e., before filtering and other types of processing are performed).<br />
<br />
As a member of the [https://datacite.org DataCite organization], NASA Heliophysics (HP) can "mint" DOIs for ground magnetometer datasets. NASA HP is providing an easy means to assign DOIs to datasets using the HP Digital Resource Registry (HDRR) by providing landing pages for datasets based on their "SPASE" resource descriptions. As an example, any users of NASA's OMNI dataset can now use https://doi.org/10.48322/1shr-ht18 for the hourly dataset, and other DOIs for other sets, discoverable by a search with the Heliophysics Data Portal (HDP; https://heliophysicsdata.gsfc.nasa.gov; look for "omni" in the "observatory" entry at the left). More details for DOI initiation for resources in the HDP can be found [https://hpde.gsfc.nasa.gov/DOI_Initiative_October_2020.pdf here]. For further information, and especially to start the process of registering DOIs, contact James Weygand (jweygand@igpp.ucla.edu or jweygand@epss.ucla.edu).<br />
<br />
As noted above, a SPASE resource description is required for each magnetometer dataset to mint a DOI. Here's an example for the [https://drive.google.com/file/d/1MxEDFAa_grGuCdID9vwK9pRzkzH7FQYR/view?usp=sharing MACCS magnetometer network 5s measurements].<br />
<br />
== 2019 GEM workshop meeting ==<br />
<br />
The ground magnetometer advisory board was formed in 2016 as a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts.<br />
<br />
We invite the GEM community to attend our meeting on Monday, June 24 at 1:30 PM, where we’ll discuss updates on all the above items. Later this year, we’ll add new members to the advisory board who either operate ground magnetometers or use magnetometer data to support their scientific investigations and/or space weather monitoring efforts. If you’re interested in learning more about this opportunity, please attend this GEM meeting or contact Mike Hartinger (mdhartin@vt.edu).<br />
<br />
Monday, 24 June, 1:30 PM, Location: Santa Fe<br />
*Mike Hartinger - Updates on ground magnetometer advisory board activities<br />
*Mark Engebretson - Summary of information gathering report<br />
*Lisa Winter - NSF updates<br />
*Hyomin Kim - DRUM/DASI updates and future plans, discussion<br />
*Jesper Gjerloev - SuperMAG updates<br />
*Josh Rigler - USGS updates, updates from other magnetometer arrays<br />
<br />
== 2019 mini-GEM workshop meeting ==<br />
<br />
Sunday, 8 December, 1200-1330, Location: Oregon Room<br />
*Mike Hartinger - [https://drive.google.com/file/d/1f3nDkQU4Red2gBLe_I5z_z0LOTHRyfN8/view?usp=sharing Introduction and Overview of Advisory Board activities, updates on DOI and new instruments]<br />
*Howard Singer - [https://drive.google.com/file/d/16poHzPvIM60z9Z7E_qXHznRGL80cjRRY/view?usp=sharing How ground magnetometers are currently incorporated into forecasts at SWPC, how they could be incorporated in the future]<br />
*Jennifer Gannon - How ground magnetometers can best be used to monitor/investigate GIC, utility-grade magnetometers<br />
*Endawoke Yizengaw - Open discussion with NSF, DRUM/DASI future proposal plans<br />
*Anna Kelbert - [https://drive.google.com/open?id=1XFHxruhasIRvZ3JDGtVtExZE6d87tM0X USGS Geomagnetism Program updates]<br />
*Peter Chi - update on ULTIMA activities / international collaboration<br />
*James Weygand - [https://drive.google.com/open?id=1Uq5ArdynNUk6ymbrBAcbFU9zbzH1eD3t Spherical Elementary Currents and Mid/Low Latitude Data Availability]<br />
*Walk-ins TBD (Amy Keesee/Mike Coughlin,...)<br />
<br />
<br />
== August 2020 Virtual Discussion: Ground Magnetometer Measurements for Heliophysics Research and Space Weather Monitoring ==<br />
<br />
Friday, 7 August, 1500-1630 EDT<br />
<br />
[https://drive.google.com/file/d/1uQ18wVmQC9de6zGn8wXVmXHvkomQPP63/view?usp=sharing Meeting Summary and Community Feedback from Google Form]<br />
<br />
Discussion from this meeting and previous meetings was summarized in this [https://drive.google.com/file/d/1-lrglV9h7OneMK8XK0yjnPk3XhhMMMNg/view?usp=sharing Heliophysics 2050 white paper].<br />
<br />
Invited Speakers<br />
* Syau-Yun Hsieh – [https://drive.google.com/file/d/1nRB6Xjc8F4tyGDtFHSoH6Tr3Kxh8hnkq/view?usp=sharing SMILE mission ground-based support]<br />
* Enrico Camporeale – [https://drive.google.com/file/d/1JiQTM6I4q9TIcEYDlHSfWwM1nkwaLjNS/view?usp=sharing Long-term continuous magnetometer data for geomagnetic activity prediction using machine learning]<br />
* Slava Merkin – [https://drive.google.com/file/d/1-nALz_h5IUMtUPPZKGQh3KNHS-GxbBqx/view?usp=sharing What is required of global magnetosphere-ionosphere-thermosphere models to predict ground magnetic perturbations]<br />
<br />
Project Updates<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/15fE4UXOXYYjACtDilek9s1DDd8h9ODho/view?usp=sharing SuperMAG]<br />
* Michelle Salzano, [https://drive.google.com/file/d/12fI2yM-q_fw-4-4cN_8Nsp3oECtohjPh/view?usp=sharing MICA]<br />
* Josh Rigler, [https://drive.google.com/file/d/1aYjQcO-56TyNB0U97bobyRVsu1D05iJo/view?usp=sharing USGS] <br />
* Jennifer Gannon, [https://drive.google.com/file/d/17KkpAGoV1OwOAsi8n6x3fTF2q6xk_CNV/view?usp=sharing MagStar]<br />
* Chuck Smith, [https://drive.google.com/file/d/1VuUgOTyFrrBxuvxmdbJoVgYeyEmAUgIw/view?usp=sharing Space Weather Underground]<br />
* Endawoke Yizengaw, iMAGS<br />
* Peter Chi, [https://drive.google.com/file/d/1CX26PkNjz_8mFhrmqX14ZxE1m8eO-Rw3/view?usp=sharing SMART]<br />
* Mark Moldwin, [https://drive.google.com/file/d/1zrSgS7iImyWW7rlXWtqheU4gWOLUS3LW/view?usp=sharing New Ground Mag and TEC/GPS system]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1thUuT5pZqMjWI4xR5ytT8IvXSRpBl72c/view?usp=sharing MACCS]<br />
* Don Hampton, [https://drive.google.com/file/d/1DQyBge17GT9r7Vjvjp5LYXio9yGUkLnU/view?usp=sharing GIMA]<br />
* Hyomin Kim, AGO<br />
* Mike Hartinger, [https://drive.google.com/file/d/1OArNCvEEsFdXwi7qmz9_WNQskhcRqBGW/view?usp=sharing AALPIP]<br />
<br />
== February 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research ==<br />
<br />
Thursday, 4 February, 1100-1230 US Eastern Time<br />
<br />
This virtual meeting will begin with an invited talk from Gary Egbert on current/future applications of ground magnetometers to geophysics research, including magnetotellurics research relevant to Heliophysics/GIC. This continues a series of discussions intended to gather feedback for the upcoming Heliophysics Decadal Survey.<br />
<br />
The rest of the meeting will be for updates from SuperMAG and individual magnetometer networks, NSF announcements, and discussion of magnetometer digital object identifiers.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
[https://agu.confex.com/agu/fm20/meetingapp.cgi/Paper/685551 Link] to Gary Egbert's 2020 AGU presentation, "Modeling Diurnal Variation Magnetic Fields for Mantle Induction Studies"<br />
<br />
* 1100-1105 Mike Hartinger, [https://drive.google.com/file/d/1FQUYC_Q0F3I97RAYrOsCN_piy9cu8OcG/view?usp=sharing Introduction and Updates on Digital Object Identifiers]<br />
* 1105-1125 Gary Egbert, [https://drive.google.com/file/d/1fvp4QiW5BpPxtlmopLaPxKp-x9SUX2Wx/view?usp=sharing Current and Future Applications of Ground Magnetometers to Geophysics Research]<br />
* 1125-1135 Jennifer Gannon, [https://drive.google.com/file/d/1AL3NasABl5eDSE-Gh71-MTcR8BuG-PpH/view?usp=sharing MagStar]<br />
* 1135-1145 Josh Rigler / Anna Kelbert, USGS Updates<br />
* 1145-1155 Whitham Reeve, [https://drive.google.com/file/d/1TUetaa2wE7W_b2-h0v3q287B0h6F8LzA/view?usp=sharing SAM-III]<br />
* 1155-1205 Rob Barnes / Matt Potter, [https://drive.google.com/file/d/1xXunj9lafw2m5C3AdDBHi6ZqTPpU-Jtf/view?usp=sharing SuperMAG Updates]<br />
* 1205-1215 [https://drive.google.com/file/d/1YDZB7mhG8rZS5EqzRIax4AvCL2wmm6q7/view?usp=sharing Collaboration tools and NSF opportunities]<br />
* 1215-1230 Additional Brief Project Updates: [https://drive.google.com/file/d/1R-SetUGvFfZyA0emtZtOxZ3WbjXXF2BN/view?usp=sharing MICA], [https://drive.google.com/file/d/1Z62YCvAGkvF2lJmHLAJOG3qtlFvYs09P/view?usp=sharing MACCS], [https://drive.google.com/file/d/1THwB7Cq0K5hhPhY_3BRh9R724FwXssD-/view?usp=sharing NJIT], [https://drive.google.com/file/d/17XYtKyofyw_1uRc1T69K2l7Qxiiccyau/view?usp=sharing AALPIP]<br />
<br />
== July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey ==<br />
<br />
Thursday, 8 July, 1200-1330 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey. The discussion began with several presentations related to open magnetometer science questions and infrastructure. The rest of the meeting was for open discussion on topics for magnetometer-related white papers for the decadal survey.<br />
<br />
[https://drive.google.com/file/d/1yEqAe-CuK0XQBLiP5vsrhEAg3LhRaIui/view?usp=sharing Meeting notes]<br />
<br />
* Mike Hartinger, [https://drive.google.com/file/d/1FVolkY5xVn4DeL_3TFQmLWIpcdl6vKHF/view?usp=sharing Overview of the Meeting, NSF Opportunities]<br />
* Adam Schultz, [https://drive.google.com/file/d/1iVcUlawbmcbkhyVZLdaLp1s-_f8QSKm7/view?usp=sharing Improving Situational Awareness of ground-level EM fields]<br />
* Dan Schneider, [https://drive.google.com/file/d/1KGiHVAEQkynAkKeqYFBwV0ynrrMAetke/view?usp=sharing QuakeFinder: Induction Coil Magnetometer Array]<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/1G4MGyKsbCIdBhNU0e3hoNqeA7HP_uZsD/view?usp=sharing SuperMAG news]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1pNoWfpl8XyaQ5qtKX1nMXJrzaxX3sIkk/view?usp=sharing Unresolved issues in MPE-GIC studies]<br />
<br />
== October 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (1) ==<br />
<br />
Thursday, 19 October, 1400-1530 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July 2021. This was a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== February 2022 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (2) ==<br />
<br />
Monday, 7 February, 1600-1700 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July and October 2021. The meeting started with a [https://drive.google.com/file/d/1TAjZPnhS60InWkukMMrVQh4rxzeZo0hd/view?usp=sharing presentation] discussing upcoming meetings and other announcements related to the Decadal Survey as well as plans for an over-arching ground magnetometer white paper. The remaining time was for a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== 2022 GEM Workshop meeting ==<br />
<br />
Monday, 20 June, 1030-1200 US Hawaii Time, Stingray room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2022 GEM workshop. The session will begin with an introduction to both groups followed by an invited talk by Dr. Chigomezyo Ngwira on geomagnetically induced currents and geomagnetic disturbances. The remainder of the session will be for discussion of Solar and Space Physics Decadal Survey white papers related to ground magnetometers and short magnetometer network updates.<br />
<br />
* 1030-1035 - Mike Hartinger, Overview of the US Ground Magnetometer Group<br />
* 1035-1040 - Xueling Shi, Overview of the new GEM GIC focus group<br />
* 1040-1100 - Chigomezyo Ngwira, Review of Geomagnetic Disturbances and GIC<br />
* 1100-1105 - Mike Hartinger, GMAG group decadal survey discussions overview<br />
* 1105-1110 - Mike Hartinger, Overarching magnetometer white paper<br />
* 1110-1115 - Jesper Gjerloev, Decadal survey white paper<br />
* 1115-1145 - General Q+A and discussion of decadal survey white paper topics<br />
* 1145-1200 - Magnetometer Network/SuperMAG Updates (1-slide/1-minute each): Jesper Gjerloev (SuperMAG), Shane Coyle (AALPIP), Shane Coyle (GPS Rollover), Michelle Salzano (MICA-S), Hyomin Kim (HamSCI magnetometer), Hyomin Kim (Deep polar cap Antarctic network), Josh Rigler (USGS magnetometer network), Mark Engebretson (MACCS - presenting virtually), Q+A</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=US_Ground-based_magnetometer_arrays&diff=5814US Ground-based magnetometer arrays2022-06-16T13:25:25Z<p>Mdhartin: /* 2022 GEM Workshop meeting */</p>
<hr />
<div>=== US Ground Magnetometer Board ===<br />
<br />
This wiki page and related ground magnetometer board meetings are part of a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts. For more information about the current state and future of ground magnetometer networks in support of space weather monitoring and research, see this article in [https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017SW001718 Space Weather]. <br />
<br />
''Current Ground Magnetometer Board Members:''<br />
* Peter Chi<br />
* Mark Engebretson, (former chair)<br />
* Jennifer Gannon<br />
* Jesper Gjerloev<br />
* Michael Hartinger, (current chair, mhartinger@spacescience.org)<br />
* Hyomin Kim<br />
* Gang Lu<br />
* Josh Rigler<br />
* Michelle Salzano<br />
* Howard Singer<br />
* Endawoke Yizengaw<br />
<br />
''Former Ground Magnetometer Board Members:''<br />
* Carol Finn<br />
* Efthyia Zesta<br />
<br />
=== US-Sponsored Ground-Based Magnetometer Arrays and Programs* ===<br />
<br />
{| class="wikitable" style="width: 50%; height: 4em;"<br />
|-<br />
| Array || Location || Instruments || Manufacturer || No. of Locations<br />
|-<br />
| AAL-PIP || Antarctica || Fluxgate || Lviv Centre ISR || 6<br />
|-<br />
| AAL-PIP || Antarctica || Induction Coil || UNH || 4<br />
|-<br />
| AMBER || Africa || Fluxgate || UCLA || 7<br />
|-<br />
| AMBER || South America || Fluxgate || UCLA || 2<br />
|-<br />
| AMBER || East Asia || Fluxgate || UCLA || 4<br />
|-<br />
| Falcon || Continental US || Fluxgate || UCLA || 11<br />
|-<br />
| GIMA || Alaska || Fluxgate || Narod || 9<br />
|-<br />
| Jicamarca || South America || Fluxgate || UCLA || 2<br />
|-<br />
| LISN || South America || Fluxgate || Custom/Jicamarca || 6<br />
|-<br />
| MACCS || Arctic Canada || Fluxgate || Narod || 8<br />
|-<br />
| McMAC || Continental US & Mexico || Fluxgate || UCLA || 9<br />
|-<br />
| MEASURE || Continental US || Fluxgate || UCLA || 6<br />
|-<br />
| SAMBA || South America & Antarctica || Fluxgate || UCLA || 12<br />
|-<br />
| THEMIS || Continental US & Canada || Fluxgate || UCLA || 24<br />
|-<br />
| US Geological Survey || US & Territories || Fluxgate || Narod, Technical Univ of Denmark || 11<br />
|-<br />
| NJIT / AGO || Antarctica || Fluxgate || Bell Labs || 7<br />
|-<br />
| NJIT / AGO || Antarctica || Induction Coil || Tohoku University || 5<br />
|-<br />
| MICA || Antarctica || Induction Coil || UNH || 5<br />
|-<br />
| MICA || Arctic Canada || Induction Coil || UNH || 4<br />
|-<br />
| MICA || Svalbard || Induction Coil || UNH || 4<br />
|}<br />
<br />
*Some locations listed here have instruments that are not currently operating.<br />
<br />
=== Ground Magnetometer Data ===<br />
<br />
[http://supermag.jhuapl.edu/ SuperMAG]<br />
<br />
[https://www.usgs.gov/natural-hazards/geomagnetism/data-tools USGS Geomagnetism Program]<br />
<br />
[https://www.intermagnet.org/ INTERMAGNET]<br />
<br />
[http://vmo.igpp.ucla.edu/data1/SECS/Quicklook/ Spherical Elementary Currents] from James Weygand<br />
<br />
[http://themis.ssl.berkeley.edu/gmag/gmag_list.php?selyear=4000&selmonth=13&smap=on&sinfo=on&saelist=on&ae=on THEMIS]<br />
<br />
[https://cdaweb.gsfc.nasa.gov/index.html/ NASA CDAWeb]<br />
<br />
[http://mirl.unh.edu/ulf_status.html UNH Magnetic Induction Coil Array (MICA)]<br />
<br />
[http://search.iugonet.org/list.jsp IUGONET]<br />
<br />
=== Digital Object Identifiers for Ground Magnetometer Data ===<br />
<br />
Digital Object Identifiers (DOI) allow authors to cite data products just as they refer to papers. This is becoming a requirement of many journals, as it assures that the specific data used in a publication are findable and accessible. The DOI provides a permanent identifier (PID) for the data, remaining unchanged even if the data are moved to another archive. The "creators" (authors) of the data must link the DOI to a "landing page" that provides details about the data and methods for accessing them. Our group recommends that each ground magnetometer network generate DOIs for their datasets, at minimum one DOI for their original measurements (i.e., before filtering and other types of processing are performed).<br />
<br />
As a member of the [https://datacite.org DataCite organization], NASA Heliophysics (HP) can "mint" DOIs for ground magnetometer datasets. NASA HP is providing an easy means to assign DOIs to datasets using the HP Digital Resource Registry (HDRR) by providing landing pages for datasets based on their "SPASE" resource descriptions. As an example, any users of NASA's OMNI dataset can now use https://doi.org/10.48322/1shr-ht18 for the hourly dataset, and other DOIs for other sets, discoverable by a search with the Heliophysics Data Portal (HDP; https://heliophysicsdata.gsfc.nasa.gov; look for "omni" in the "observatory" entry at the left). More details for DOI initiation for resources in the HDP can be found [https://hpde.gsfc.nasa.gov/DOI_Initiative_October_2020.pdf here]. For further information, and especially to start the process of registering DOIs, contact James Weygand (jweygand@igpp.ucla.edu or jweygand@epss.ucla.edu).<br />
<br />
As noted above, a SPASE resource description is required for each magnetometer dataset to mint a DOI. Here's an example for the [https://drive.google.com/file/d/1MxEDFAa_grGuCdID9vwK9pRzkzH7FQYR/view?usp=sharing MACCS magnetometer network 5s measurements].<br />
<br />
== 2019 GEM workshop meeting ==<br />
<br />
The ground magnetometer advisory board was formed in 2016 as a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts.<br />
<br />
We invite the GEM community to attend our meeting on Monday, June 24 at 1:30 PM, where we’ll discuss updates on all the above items. Later this year, we’ll add new members to the advisory board who either operate ground magnetometers or use magnetometer data to support their scientific investigations and/or space weather monitoring efforts. If you’re interested in learning more about this opportunity, please attend this GEM meeting or contact Mike Hartinger (mdhartin@vt.edu).<br />
<br />
Monday, 24 June, 1:30 PM, Location: Santa Fe<br />
*Mike Hartinger - Updates on ground magnetometer advisory board activities<br />
*Mark Engebretson - Summary of information gathering report<br />
*Lisa Winter - NSF updates<br />
*Hyomin Kim - DRUM/DASI updates and future plans, discussion<br />
*Jesper Gjerloev - SuperMAG updates<br />
*Josh Rigler - USGS updates, updates from other magnetometer arrays<br />
<br />
== 2019 mini-GEM workshop meeting ==<br />
<br />
Sunday, 8 December, 1200-1330, Location: Oregon Room<br />
*Mike Hartinger - [https://drive.google.com/file/d/1f3nDkQU4Red2gBLe_I5z_z0LOTHRyfN8/view?usp=sharing Introduction and Overview of Advisory Board activities, updates on DOI and new instruments]<br />
*Howard Singer - [https://drive.google.com/file/d/16poHzPvIM60z9Z7E_qXHznRGL80cjRRY/view?usp=sharing How ground magnetometers are currently incorporated into forecasts at SWPC, how they could be incorporated in the future]<br />
*Jennifer Gannon - How ground magnetometers can best be used to monitor/investigate GIC, utility-grade magnetometers<br />
*Endawoke Yizengaw - Open discussion with NSF, DRUM/DASI future proposal plans<br />
*Anna Kelbert - [https://drive.google.com/open?id=1XFHxruhasIRvZ3JDGtVtExZE6d87tM0X USGS Geomagnetism Program updates]<br />
*Peter Chi - update on ULTIMA activities / international collaboration<br />
*James Weygand - [https://drive.google.com/open?id=1Uq5ArdynNUk6ymbrBAcbFU9zbzH1eD3t Spherical Elementary Currents and Mid/Low Latitude Data Availability]<br />
*Walk-ins TBD (Amy Keesee/Mike Coughlin,...)<br />
<br />
<br />
== August 2020 Virtual Discussion: Ground Magnetometer Measurements for Heliophysics Research and Space Weather Monitoring ==<br />
<br />
Friday, 7 August, 1500-1630 EDT<br />
<br />
[https://drive.google.com/file/d/1uQ18wVmQC9de6zGn8wXVmXHvkomQPP63/view?usp=sharing Meeting Summary and Community Feedback from Google Form]<br />
<br />
Discussion from this meeting and previous meetings was summarized in this [https://drive.google.com/file/d/1-lrglV9h7OneMK8XK0yjnPk3XhhMMMNg/view?usp=sharing Heliophysics 2050 white paper].<br />
<br />
Invited Speakers<br />
* Syau-Yun Hsieh – [https://drive.google.com/file/d/1nRB6Xjc8F4tyGDtFHSoH6Tr3Kxh8hnkq/view?usp=sharing SMILE mission ground-based support]<br />
* Enrico Camporeale – [https://drive.google.com/file/d/1JiQTM6I4q9TIcEYDlHSfWwM1nkwaLjNS/view?usp=sharing Long-term continuous magnetometer data for geomagnetic activity prediction using machine learning]<br />
* Slava Merkin – [https://drive.google.com/file/d/1-nALz_h5IUMtUPPZKGQh3KNHS-GxbBqx/view?usp=sharing What is required of global magnetosphere-ionosphere-thermosphere models to predict ground magnetic perturbations]<br />
<br />
Project Updates<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/15fE4UXOXYYjACtDilek9s1DDd8h9ODho/view?usp=sharing SuperMAG]<br />
* Michelle Salzano, [https://drive.google.com/file/d/12fI2yM-q_fw-4-4cN_8Nsp3oECtohjPh/view?usp=sharing MICA]<br />
* Josh Rigler, [https://drive.google.com/file/d/1aYjQcO-56TyNB0U97bobyRVsu1D05iJo/view?usp=sharing USGS] <br />
* Jennifer Gannon, [https://drive.google.com/file/d/17KkpAGoV1OwOAsi8n6x3fTF2q6xk_CNV/view?usp=sharing MagStar]<br />
* Chuck Smith, [https://drive.google.com/file/d/1VuUgOTyFrrBxuvxmdbJoVgYeyEmAUgIw/view?usp=sharing Space Weather Underground]<br />
* Endawoke Yizengaw, iMAGS<br />
* Peter Chi, [https://drive.google.com/file/d/1CX26PkNjz_8mFhrmqX14ZxE1m8eO-Rw3/view?usp=sharing SMART]<br />
* Mark Moldwin, [https://drive.google.com/file/d/1zrSgS7iImyWW7rlXWtqheU4gWOLUS3LW/view?usp=sharing New Ground Mag and TEC/GPS system]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1thUuT5pZqMjWI4xR5ytT8IvXSRpBl72c/view?usp=sharing MACCS]<br />
* Don Hampton, [https://drive.google.com/file/d/1DQyBge17GT9r7Vjvjp5LYXio9yGUkLnU/view?usp=sharing GIMA]<br />
* Hyomin Kim, AGO<br />
* Mike Hartinger, [https://drive.google.com/file/d/1OArNCvEEsFdXwi7qmz9_WNQskhcRqBGW/view?usp=sharing AALPIP]<br />
<br />
== February 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research ==<br />
<br />
Thursday, 4 February, 1100-1230 US Eastern Time<br />
<br />
This virtual meeting will begin with an invited talk from Gary Egbert on current/future applications of ground magnetometers to geophysics research, including magnetotellurics research relevant to Heliophysics/GIC. This continues a series of discussions intended to gather feedback for the upcoming Heliophysics Decadal Survey.<br />
<br />
The rest of the meeting will be for updates from SuperMAG and individual magnetometer networks, NSF announcements, and discussion of magnetometer digital object identifiers.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
[https://agu.confex.com/agu/fm20/meetingapp.cgi/Paper/685551 Link] to Gary Egbert's 2020 AGU presentation, "Modeling Diurnal Variation Magnetic Fields for Mantle Induction Studies"<br />
<br />
* 1100-1105 Mike Hartinger, [https://drive.google.com/file/d/1FQUYC_Q0F3I97RAYrOsCN_piy9cu8OcG/view?usp=sharing Introduction and Updates on Digital Object Identifiers]<br />
* 1105-1125 Gary Egbert, [https://drive.google.com/file/d/1fvp4QiW5BpPxtlmopLaPxKp-x9SUX2Wx/view?usp=sharing Current and Future Applications of Ground Magnetometers to Geophysics Research]<br />
* 1125-1135 Jennifer Gannon, [https://drive.google.com/file/d/1AL3NasABl5eDSE-Gh71-MTcR8BuG-PpH/view?usp=sharing MagStar]<br />
* 1135-1145 Josh Rigler / Anna Kelbert, USGS Updates<br />
* 1145-1155 Whitham Reeve, [https://drive.google.com/file/d/1TUetaa2wE7W_b2-h0v3q287B0h6F8LzA/view?usp=sharing SAM-III]<br />
* 1155-1205 Rob Barnes / Matt Potter, [https://drive.google.com/file/d/1xXunj9lafw2m5C3AdDBHi6ZqTPpU-Jtf/view?usp=sharing SuperMAG Updates]<br />
* 1205-1215 [https://drive.google.com/file/d/1YDZB7mhG8rZS5EqzRIax4AvCL2wmm6q7/view?usp=sharing Collaboration tools and NSF opportunities]<br />
* 1215-1230 Additional Brief Project Updates: [https://drive.google.com/file/d/1R-SetUGvFfZyA0emtZtOxZ3WbjXXF2BN/view?usp=sharing MICA], [https://drive.google.com/file/d/1Z62YCvAGkvF2lJmHLAJOG3qtlFvYs09P/view?usp=sharing MACCS], [https://drive.google.com/file/d/1THwB7Cq0K5hhPhY_3BRh9R724FwXssD-/view?usp=sharing NJIT], [https://drive.google.com/file/d/17XYtKyofyw_1uRc1T69K2l7Qxiiccyau/view?usp=sharing AALPIP]<br />
<br />
== July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey ==<br />
<br />
Thursday, 8 July, 1200-1330 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey. The discussion began with several presentations related to open magnetometer science questions and infrastructure. The rest of the meeting was for open discussion on topics for magnetometer-related white papers for the decadal survey.<br />
<br />
[https://drive.google.com/file/d/1yEqAe-CuK0XQBLiP5vsrhEAg3LhRaIui/view?usp=sharing Meeting notes]<br />
<br />
* Mike Hartinger, [https://drive.google.com/file/d/1FVolkY5xVn4DeL_3TFQmLWIpcdl6vKHF/view?usp=sharing Overview of the Meeting, NSF Opportunities]<br />
* Adam Schultz, [https://drive.google.com/file/d/1iVcUlawbmcbkhyVZLdaLp1s-_f8QSKm7/view?usp=sharing Improving Situational Awareness of ground-level EM fields]<br />
* Dan Schneider, [https://drive.google.com/file/d/1KGiHVAEQkynAkKeqYFBwV0ynrrMAetke/view?usp=sharing QuakeFinder: Induction Coil Magnetometer Array]<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/1G4MGyKsbCIdBhNU0e3hoNqeA7HP_uZsD/view?usp=sharing SuperMAG news]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1pNoWfpl8XyaQ5qtKX1nMXJrzaxX3sIkk/view?usp=sharing Unresolved issues in MPE-GIC studies]<br />
<br />
== October 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (1) ==<br />
<br />
Thursday, 19 October, 1400-1530 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July 2021. This was a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== February 2022 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (2) ==<br />
<br />
Monday, 7 February, 1600-1700 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July and October 2021. The meeting started with a [https://drive.google.com/file/d/1TAjZPnhS60InWkukMMrVQh4rxzeZo0hd/view?usp=sharing presentation] discussing upcoming meetings and other announcements related to the Decadal Survey as well as plans for an over-arching ground magnetometer white paper. The remaining time was for a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== 2022 GEM Workshop meeting ==<br />
<br />
Monday, 20 June, 1030-1200 US Hawaii Time, Stingray room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2022 GEM workshop. The session will begin with an introduction to both groups followed by an invited talk by Dr. Chigomezyo Ngwira on geomagnetically induced currents and geomagnetic disturbances. The remainder of the session will be for discussion of Solar and Space Physics Decadal Survey white papers related to ground magnetometers and short magnetometer network updates.<br />
<br />
* 1030-1035 - Mike Hartinger, Overview of the US Ground Magnetometer Group<br />
* 1035-1040 - Xueling Shi, Overview of the new GEM GIC focus group<br />
* 1040-1100 - Chigomezyo Ngwira, Review of Geomagnetic Disturbances and GIC<br />
* 1100-1105 - Mike Hartinger, GMAG group decadal survey discussions overview<br />
* 1105-1110 - Mike Hartinger, Overarching magnetometer white paper<br />
* 1110-1115 - Jesper Gjerloev, Decadal survey white paper<br />
* 1115-1145 - General Q+A and discussion of decadal survey white paper topics<br />
* 1145-1200 - Magnetometer Network/SuperMAG Updates (1-slide/1-minute each): Jesper Gjerloev (SuperMAG), Shane Coyle (AALPIP), Shane Coyle (GPS Rollover), Michelle Salzano (MICA-S), Hyomin Kim (HamSCI magnetometer), Hyomin Kim (Deep polar cap Antarctic network), Mark Engebretson (MACCS - presenting virtually), Q+A</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=US_Ground-based_magnetometer_arrays&diff=5813US Ground-based magnetometer arrays2022-06-16T13:24:15Z<p>Mdhartin: /* 2022 GEM Workshop meeting */</p>
<hr />
<div>=== US Ground Magnetometer Board ===<br />
<br />
This wiki page and related ground magnetometer board meetings are part of a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts. For more information about the current state and future of ground magnetometer networks in support of space weather monitoring and research, see this article in [https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017SW001718 Space Weather]. <br />
<br />
''Current Ground Magnetometer Board Members:''<br />
* Peter Chi<br />
* Mark Engebretson, (former chair)<br />
* Jennifer Gannon<br />
* Jesper Gjerloev<br />
* Michael Hartinger, (current chair, mhartinger@spacescience.org)<br />
* Hyomin Kim<br />
* Gang Lu<br />
* Josh Rigler<br />
* Michelle Salzano<br />
* Howard Singer<br />
* Endawoke Yizengaw<br />
<br />
''Former Ground Magnetometer Board Members:''<br />
* Carol Finn<br />
* Efthyia Zesta<br />
<br />
=== US-Sponsored Ground-Based Magnetometer Arrays and Programs* ===<br />
<br />
{| class="wikitable" style="width: 50%; height: 4em;"<br />
|-<br />
| Array || Location || Instruments || Manufacturer || No. of Locations<br />
|-<br />
| AAL-PIP || Antarctica || Fluxgate || Lviv Centre ISR || 6<br />
|-<br />
| AAL-PIP || Antarctica || Induction Coil || UNH || 4<br />
|-<br />
| AMBER || Africa || Fluxgate || UCLA || 7<br />
|-<br />
| AMBER || South America || Fluxgate || UCLA || 2<br />
|-<br />
| AMBER || East Asia || Fluxgate || UCLA || 4<br />
|-<br />
| Falcon || Continental US || Fluxgate || UCLA || 11<br />
|-<br />
| GIMA || Alaska || Fluxgate || Narod || 9<br />
|-<br />
| Jicamarca || South America || Fluxgate || UCLA || 2<br />
|-<br />
| LISN || South America || Fluxgate || Custom/Jicamarca || 6<br />
|-<br />
| MACCS || Arctic Canada || Fluxgate || Narod || 8<br />
|-<br />
| McMAC || Continental US & Mexico || Fluxgate || UCLA || 9<br />
|-<br />
| MEASURE || Continental US || Fluxgate || UCLA || 6<br />
|-<br />
| SAMBA || South America & Antarctica || Fluxgate || UCLA || 12<br />
|-<br />
| THEMIS || Continental US & Canada || Fluxgate || UCLA || 24<br />
|-<br />
| US Geological Survey || US & Territories || Fluxgate || Narod, Technical Univ of Denmark || 11<br />
|-<br />
| NJIT / AGO || Antarctica || Fluxgate || Bell Labs || 7<br />
|-<br />
| NJIT / AGO || Antarctica || Induction Coil || Tohoku University || 5<br />
|-<br />
| MICA || Antarctica || Induction Coil || UNH || 5<br />
|-<br />
| MICA || Arctic Canada || Induction Coil || UNH || 4<br />
|-<br />
| MICA || Svalbard || Induction Coil || UNH || 4<br />
|}<br />
<br />
*Some locations listed here have instruments that are not currently operating.<br />
<br />
=== Ground Magnetometer Data ===<br />
<br />
[http://supermag.jhuapl.edu/ SuperMAG]<br />
<br />
[https://www.usgs.gov/natural-hazards/geomagnetism/data-tools USGS Geomagnetism Program]<br />
<br />
[https://www.intermagnet.org/ INTERMAGNET]<br />
<br />
[http://vmo.igpp.ucla.edu/data1/SECS/Quicklook/ Spherical Elementary Currents] from James Weygand<br />
<br />
[http://themis.ssl.berkeley.edu/gmag/gmag_list.php?selyear=4000&selmonth=13&smap=on&sinfo=on&saelist=on&ae=on THEMIS]<br />
<br />
[https://cdaweb.gsfc.nasa.gov/index.html/ NASA CDAWeb]<br />
<br />
[http://mirl.unh.edu/ulf_status.html UNH Magnetic Induction Coil Array (MICA)]<br />
<br />
[http://search.iugonet.org/list.jsp IUGONET]<br />
<br />
=== Digital Object Identifiers for Ground Magnetometer Data ===<br />
<br />
Digital Object Identifiers (DOI) allow authors to cite data products just as they refer to papers. This is becoming a requirement of many journals, as it assures that the specific data used in a publication are findable and accessible. The DOI provides a permanent identifier (PID) for the data, remaining unchanged even if the data are moved to another archive. The "creators" (authors) of the data must link the DOI to a "landing page" that provides details about the data and methods for accessing them. Our group recommends that each ground magnetometer network generate DOIs for their datasets, at minimum one DOI for their original measurements (i.e., before filtering and other types of processing are performed).<br />
<br />
As a member of the [https://datacite.org DataCite organization], NASA Heliophysics (HP) can "mint" DOIs for ground magnetometer datasets. NASA HP is providing an easy means to assign DOIs to datasets using the HP Digital Resource Registry (HDRR) by providing landing pages for datasets based on their "SPASE" resource descriptions. As an example, any users of NASA's OMNI dataset can now use https://doi.org/10.48322/1shr-ht18 for the hourly dataset, and other DOIs for other sets, discoverable by a search with the Heliophysics Data Portal (HDP; https://heliophysicsdata.gsfc.nasa.gov; look for "omni" in the "observatory" entry at the left). More details for DOI initiation for resources in the HDP can be found [https://hpde.gsfc.nasa.gov/DOI_Initiative_October_2020.pdf here]. For further information, and especially to start the process of registering DOIs, contact James Weygand (jweygand@igpp.ucla.edu or jweygand@epss.ucla.edu).<br />
<br />
As noted above, a SPASE resource description is required for each magnetometer dataset to mint a DOI. Here's an example for the [https://drive.google.com/file/d/1MxEDFAa_grGuCdID9vwK9pRzkzH7FQYR/view?usp=sharing MACCS magnetometer network 5s measurements].<br />
<br />
== 2019 GEM workshop meeting ==<br />
<br />
The ground magnetometer advisory board was formed in 2016 as a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts.<br />
<br />
We invite the GEM community to attend our meeting on Monday, June 24 at 1:30 PM, where we’ll discuss updates on all the above items. Later this year, we’ll add new members to the advisory board who either operate ground magnetometers or use magnetometer data to support their scientific investigations and/or space weather monitoring efforts. If you’re interested in learning more about this opportunity, please attend this GEM meeting or contact Mike Hartinger (mdhartin@vt.edu).<br />
<br />
Monday, 24 June, 1:30 PM, Location: Santa Fe<br />
*Mike Hartinger - Updates on ground magnetometer advisory board activities<br />
*Mark Engebretson - Summary of information gathering report<br />
*Lisa Winter - NSF updates<br />
*Hyomin Kim - DRUM/DASI updates and future plans, discussion<br />
*Jesper Gjerloev - SuperMAG updates<br />
*Josh Rigler - USGS updates, updates from other magnetometer arrays<br />
<br />
== 2019 mini-GEM workshop meeting ==<br />
<br />
Sunday, 8 December, 1200-1330, Location: Oregon Room<br />
*Mike Hartinger - [https://drive.google.com/file/d/1f3nDkQU4Red2gBLe_I5z_z0LOTHRyfN8/view?usp=sharing Introduction and Overview of Advisory Board activities, updates on DOI and new instruments]<br />
*Howard Singer - [https://drive.google.com/file/d/16poHzPvIM60z9Z7E_qXHznRGL80cjRRY/view?usp=sharing How ground magnetometers are currently incorporated into forecasts at SWPC, how they could be incorporated in the future]<br />
*Jennifer Gannon - How ground magnetometers can best be used to monitor/investigate GIC, utility-grade magnetometers<br />
*Endawoke Yizengaw - Open discussion with NSF, DRUM/DASI future proposal plans<br />
*Anna Kelbert - [https://drive.google.com/open?id=1XFHxruhasIRvZ3JDGtVtExZE6d87tM0X USGS Geomagnetism Program updates]<br />
*Peter Chi - update on ULTIMA activities / international collaboration<br />
*James Weygand - [https://drive.google.com/open?id=1Uq5ArdynNUk6ymbrBAcbFU9zbzH1eD3t Spherical Elementary Currents and Mid/Low Latitude Data Availability]<br />
*Walk-ins TBD (Amy Keesee/Mike Coughlin,...)<br />
<br />
<br />
== August 2020 Virtual Discussion: Ground Magnetometer Measurements for Heliophysics Research and Space Weather Monitoring ==<br />
<br />
Friday, 7 August, 1500-1630 EDT<br />
<br />
[https://drive.google.com/file/d/1uQ18wVmQC9de6zGn8wXVmXHvkomQPP63/view?usp=sharing Meeting Summary and Community Feedback from Google Form]<br />
<br />
Discussion from this meeting and previous meetings was summarized in this [https://drive.google.com/file/d/1-lrglV9h7OneMK8XK0yjnPk3XhhMMMNg/view?usp=sharing Heliophysics 2050 white paper].<br />
<br />
Invited Speakers<br />
* Syau-Yun Hsieh – [https://drive.google.com/file/d/1nRB6Xjc8F4tyGDtFHSoH6Tr3Kxh8hnkq/view?usp=sharing SMILE mission ground-based support]<br />
* Enrico Camporeale – [https://drive.google.com/file/d/1JiQTM6I4q9TIcEYDlHSfWwM1nkwaLjNS/view?usp=sharing Long-term continuous magnetometer data for geomagnetic activity prediction using machine learning]<br />
* Slava Merkin – [https://drive.google.com/file/d/1-nALz_h5IUMtUPPZKGQh3KNHS-GxbBqx/view?usp=sharing What is required of global magnetosphere-ionosphere-thermosphere models to predict ground magnetic perturbations]<br />
<br />
Project Updates<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/15fE4UXOXYYjACtDilek9s1DDd8h9ODho/view?usp=sharing SuperMAG]<br />
* Michelle Salzano, [https://drive.google.com/file/d/12fI2yM-q_fw-4-4cN_8Nsp3oECtohjPh/view?usp=sharing MICA]<br />
* Josh Rigler, [https://drive.google.com/file/d/1aYjQcO-56TyNB0U97bobyRVsu1D05iJo/view?usp=sharing USGS] <br />
* Jennifer Gannon, [https://drive.google.com/file/d/17KkpAGoV1OwOAsi8n6x3fTF2q6xk_CNV/view?usp=sharing MagStar]<br />
* Chuck Smith, [https://drive.google.com/file/d/1VuUgOTyFrrBxuvxmdbJoVgYeyEmAUgIw/view?usp=sharing Space Weather Underground]<br />
* Endawoke Yizengaw, iMAGS<br />
* Peter Chi, [https://drive.google.com/file/d/1CX26PkNjz_8mFhrmqX14ZxE1m8eO-Rw3/view?usp=sharing SMART]<br />
* Mark Moldwin, [https://drive.google.com/file/d/1zrSgS7iImyWW7rlXWtqheU4gWOLUS3LW/view?usp=sharing New Ground Mag and TEC/GPS system]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1thUuT5pZqMjWI4xR5ytT8IvXSRpBl72c/view?usp=sharing MACCS]<br />
* Don Hampton, [https://drive.google.com/file/d/1DQyBge17GT9r7Vjvjp5LYXio9yGUkLnU/view?usp=sharing GIMA]<br />
* Hyomin Kim, AGO<br />
* Mike Hartinger, [https://drive.google.com/file/d/1OArNCvEEsFdXwi7qmz9_WNQskhcRqBGW/view?usp=sharing AALPIP]<br />
<br />
== February 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research ==<br />
<br />
Thursday, 4 February, 1100-1230 US Eastern Time<br />
<br />
This virtual meeting will begin with an invited talk from Gary Egbert on current/future applications of ground magnetometers to geophysics research, including magnetotellurics research relevant to Heliophysics/GIC. This continues a series of discussions intended to gather feedback for the upcoming Heliophysics Decadal Survey.<br />
<br />
The rest of the meeting will be for updates from SuperMAG and individual magnetometer networks, NSF announcements, and discussion of magnetometer digital object identifiers.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
[https://agu.confex.com/agu/fm20/meetingapp.cgi/Paper/685551 Link] to Gary Egbert's 2020 AGU presentation, "Modeling Diurnal Variation Magnetic Fields for Mantle Induction Studies"<br />
<br />
* 1100-1105 Mike Hartinger, [https://drive.google.com/file/d/1FQUYC_Q0F3I97RAYrOsCN_piy9cu8OcG/view?usp=sharing Introduction and Updates on Digital Object Identifiers]<br />
* 1105-1125 Gary Egbert, [https://drive.google.com/file/d/1fvp4QiW5BpPxtlmopLaPxKp-x9SUX2Wx/view?usp=sharing Current and Future Applications of Ground Magnetometers to Geophysics Research]<br />
* 1125-1135 Jennifer Gannon, [https://drive.google.com/file/d/1AL3NasABl5eDSE-Gh71-MTcR8BuG-PpH/view?usp=sharing MagStar]<br />
* 1135-1145 Josh Rigler / Anna Kelbert, USGS Updates<br />
* 1145-1155 Whitham Reeve, [https://drive.google.com/file/d/1TUetaa2wE7W_b2-h0v3q287B0h6F8LzA/view?usp=sharing SAM-III]<br />
* 1155-1205 Rob Barnes / Matt Potter, [https://drive.google.com/file/d/1xXunj9lafw2m5C3AdDBHi6ZqTPpU-Jtf/view?usp=sharing SuperMAG Updates]<br />
* 1205-1215 [https://drive.google.com/file/d/1YDZB7mhG8rZS5EqzRIax4AvCL2wmm6q7/view?usp=sharing Collaboration tools and NSF opportunities]<br />
* 1215-1230 Additional Brief Project Updates: [https://drive.google.com/file/d/1R-SetUGvFfZyA0emtZtOxZ3WbjXXF2BN/view?usp=sharing MICA], [https://drive.google.com/file/d/1Z62YCvAGkvF2lJmHLAJOG3qtlFvYs09P/view?usp=sharing MACCS], [https://drive.google.com/file/d/1THwB7Cq0K5hhPhY_3BRh9R724FwXssD-/view?usp=sharing NJIT], [https://drive.google.com/file/d/17XYtKyofyw_1uRc1T69K2l7Qxiiccyau/view?usp=sharing AALPIP]<br />
<br />
== July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey ==<br />
<br />
Thursday, 8 July, 1200-1330 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey. The discussion began with several presentations related to open magnetometer science questions and infrastructure. The rest of the meeting was for open discussion on topics for magnetometer-related white papers for the decadal survey.<br />
<br />
[https://drive.google.com/file/d/1yEqAe-CuK0XQBLiP5vsrhEAg3LhRaIui/view?usp=sharing Meeting notes]<br />
<br />
* Mike Hartinger, [https://drive.google.com/file/d/1FVolkY5xVn4DeL_3TFQmLWIpcdl6vKHF/view?usp=sharing Overview of the Meeting, NSF Opportunities]<br />
* Adam Schultz, [https://drive.google.com/file/d/1iVcUlawbmcbkhyVZLdaLp1s-_f8QSKm7/view?usp=sharing Improving Situational Awareness of ground-level EM fields]<br />
* Dan Schneider, [https://drive.google.com/file/d/1KGiHVAEQkynAkKeqYFBwV0ynrrMAetke/view?usp=sharing QuakeFinder: Induction Coil Magnetometer Array]<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/1G4MGyKsbCIdBhNU0e3hoNqeA7HP_uZsD/view?usp=sharing SuperMAG news]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1pNoWfpl8XyaQ5qtKX1nMXJrzaxX3sIkk/view?usp=sharing Unresolved issues in MPE-GIC studies]<br />
<br />
== October 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (1) ==<br />
<br />
Thursday, 19 October, 1400-1530 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July 2021. This was a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== February 2022 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (2) ==<br />
<br />
Monday, 7 February, 1600-1700 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July and October 2021. The meeting started with a [https://drive.google.com/file/d/1TAjZPnhS60InWkukMMrVQh4rxzeZo0hd/view?usp=sharing presentation] discussing upcoming meetings and other announcements related to the Decadal Survey as well as plans for an over-arching ground magnetometer white paper. The remaining time was for a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== 2022 GEM Workshop meeting ==<br />
<br />
Monday, 20 June, 1030-1200 US Hawaii Time, Stingray room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2022 GEM workshop. The session will begin with an introduction to both groups followed by an invited talk by Dr. Chigomezyo Ngwira on geomagnetically induced currents and geomagnetic disturbances. The remainder of the session will be for discussion of Solar and Space Physics Decadal Survey white papers related to ground magnetometers and short magnetometer network updates.<br />
<br />
* 1030-1035 - Mike Hartinger, Overview of the US Ground Magnetometer Group<br />
* 1035-1040 - Xueling Shi, Overview of the new GEM GIC focus group<br />
* 1040-1100 - Chigomezyo Ngwira, Review of Geomagnetic Disturbances and GIC<br />
* 1100-1105 - Mike Hartinger, Decadal survey discussions overview<br />
* 1105-1110 - Overarching white paper<br />
* 1110-1115 - Jesper Gjerloev, Decadal survey white paper<br />
* 1115-1145 - General Q+A and discussion of decadal survey white paper topics<br />
* 1145-1200 - Magnetometer Network/SuperMAG Updates (1-slide/1-minute each): Jesper Gjerloev (SuperMAG), Shane Coyle (AALPIP), Shane Coyle (GPS Rollover), Michelle Salzano (MICA-S), Hyomin Kim (HamSCI magnetometer), Hyomin Kim (Deep polar cap Antarctic network), Mark Engebretson (MACCS - presenting virtually), Q+A</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=US_Ground-based_magnetometer_arrays&diff=5812US Ground-based magnetometer arrays2022-06-16T13:18:38Z<p>Mdhartin: /* 2022 GEM Workshop meeting */</p>
<hr />
<div>=== US Ground Magnetometer Board ===<br />
<br />
This wiki page and related ground magnetometer board meetings are part of a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts. For more information about the current state and future of ground magnetometer networks in support of space weather monitoring and research, see this article in [https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017SW001718 Space Weather]. <br />
<br />
''Current Ground Magnetometer Board Members:''<br />
* Peter Chi<br />
* Mark Engebretson, (former chair)<br />
* Jennifer Gannon<br />
* Jesper Gjerloev<br />
* Michael Hartinger, (current chair, mhartinger@spacescience.org)<br />
* Hyomin Kim<br />
* Gang Lu<br />
* Josh Rigler<br />
* Michelle Salzano<br />
* Howard Singer<br />
* Endawoke Yizengaw<br />
<br />
''Former Ground Magnetometer Board Members:''<br />
* Carol Finn<br />
* Efthyia Zesta<br />
<br />
=== US-Sponsored Ground-Based Magnetometer Arrays and Programs* ===<br />
<br />
{| class="wikitable" style="width: 50%; height: 4em;"<br />
|-<br />
| Array || Location || Instruments || Manufacturer || No. of Locations<br />
|-<br />
| AAL-PIP || Antarctica || Fluxgate || Lviv Centre ISR || 6<br />
|-<br />
| AAL-PIP || Antarctica || Induction Coil || UNH || 4<br />
|-<br />
| AMBER || Africa || Fluxgate || UCLA || 7<br />
|-<br />
| AMBER || South America || Fluxgate || UCLA || 2<br />
|-<br />
| AMBER || East Asia || Fluxgate || UCLA || 4<br />
|-<br />
| Falcon || Continental US || Fluxgate || UCLA || 11<br />
|-<br />
| GIMA || Alaska || Fluxgate || Narod || 9<br />
|-<br />
| Jicamarca || South America || Fluxgate || UCLA || 2<br />
|-<br />
| LISN || South America || Fluxgate || Custom/Jicamarca || 6<br />
|-<br />
| MACCS || Arctic Canada || Fluxgate || Narod || 8<br />
|-<br />
| McMAC || Continental US & Mexico || Fluxgate || UCLA || 9<br />
|-<br />
| MEASURE || Continental US || Fluxgate || UCLA || 6<br />
|-<br />
| SAMBA || South America & Antarctica || Fluxgate || UCLA || 12<br />
|-<br />
| THEMIS || Continental US & Canada || Fluxgate || UCLA || 24<br />
|-<br />
| US Geological Survey || US & Territories || Fluxgate || Narod, Technical Univ of Denmark || 11<br />
|-<br />
| NJIT / AGO || Antarctica || Fluxgate || Bell Labs || 7<br />
|-<br />
| NJIT / AGO || Antarctica || Induction Coil || Tohoku University || 5<br />
|-<br />
| MICA || Antarctica || Induction Coil || UNH || 5<br />
|-<br />
| MICA || Arctic Canada || Induction Coil || UNH || 4<br />
|-<br />
| MICA || Svalbard || Induction Coil || UNH || 4<br />
|}<br />
<br />
*Some locations listed here have instruments that are not currently operating.<br />
<br />
=== Ground Magnetometer Data ===<br />
<br />
[http://supermag.jhuapl.edu/ SuperMAG]<br />
<br />
[https://www.usgs.gov/natural-hazards/geomagnetism/data-tools USGS Geomagnetism Program]<br />
<br />
[https://www.intermagnet.org/ INTERMAGNET]<br />
<br />
[http://vmo.igpp.ucla.edu/data1/SECS/Quicklook/ Spherical Elementary Currents] from James Weygand<br />
<br />
[http://themis.ssl.berkeley.edu/gmag/gmag_list.php?selyear=4000&selmonth=13&smap=on&sinfo=on&saelist=on&ae=on THEMIS]<br />
<br />
[https://cdaweb.gsfc.nasa.gov/index.html/ NASA CDAWeb]<br />
<br />
[http://mirl.unh.edu/ulf_status.html UNH Magnetic Induction Coil Array (MICA)]<br />
<br />
[http://search.iugonet.org/list.jsp IUGONET]<br />
<br />
=== Digital Object Identifiers for Ground Magnetometer Data ===<br />
<br />
Digital Object Identifiers (DOI) allow authors to cite data products just as they refer to papers. This is becoming a requirement of many journals, as it assures that the specific data used in a publication are findable and accessible. The DOI provides a permanent identifier (PID) for the data, remaining unchanged even if the data are moved to another archive. The "creators" (authors) of the data must link the DOI to a "landing page" that provides details about the data and methods for accessing them. Our group recommends that each ground magnetometer network generate DOIs for their datasets, at minimum one DOI for their original measurements (i.e., before filtering and other types of processing are performed).<br />
<br />
As a member of the [https://datacite.org DataCite organization], NASA Heliophysics (HP) can "mint" DOIs for ground magnetometer datasets. NASA HP is providing an easy means to assign DOIs to datasets using the HP Digital Resource Registry (HDRR) by providing landing pages for datasets based on their "SPASE" resource descriptions. As an example, any users of NASA's OMNI dataset can now use https://doi.org/10.48322/1shr-ht18 for the hourly dataset, and other DOIs for other sets, discoverable by a search with the Heliophysics Data Portal (HDP; https://heliophysicsdata.gsfc.nasa.gov; look for "omni" in the "observatory" entry at the left). More details for DOI initiation for resources in the HDP can be found [https://hpde.gsfc.nasa.gov/DOI_Initiative_October_2020.pdf here]. For further information, and especially to start the process of registering DOIs, contact James Weygand (jweygand@igpp.ucla.edu or jweygand@epss.ucla.edu).<br />
<br />
As noted above, a SPASE resource description is required for each magnetometer dataset to mint a DOI. Here's an example for the [https://drive.google.com/file/d/1MxEDFAa_grGuCdID9vwK9pRzkzH7FQYR/view?usp=sharing MACCS magnetometer network 5s measurements].<br />
<br />
== 2019 GEM workshop meeting ==<br />
<br />
The ground magnetometer advisory board was formed in 2016 as a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts.<br />
<br />
We invite the GEM community to attend our meeting on Monday, June 24 at 1:30 PM, where we’ll discuss updates on all the above items. Later this year, we’ll add new members to the advisory board who either operate ground magnetometers or use magnetometer data to support their scientific investigations and/or space weather monitoring efforts. If you’re interested in learning more about this opportunity, please attend this GEM meeting or contact Mike Hartinger (mdhartin@vt.edu).<br />
<br />
Monday, 24 June, 1:30 PM, Location: Santa Fe<br />
*Mike Hartinger - Updates on ground magnetometer advisory board activities<br />
*Mark Engebretson - Summary of information gathering report<br />
*Lisa Winter - NSF updates<br />
*Hyomin Kim - DRUM/DASI updates and future plans, discussion<br />
*Jesper Gjerloev - SuperMAG updates<br />
*Josh Rigler - USGS updates, updates from other magnetometer arrays<br />
<br />
== 2019 mini-GEM workshop meeting ==<br />
<br />
Sunday, 8 December, 1200-1330, Location: Oregon Room<br />
*Mike Hartinger - [https://drive.google.com/file/d/1f3nDkQU4Red2gBLe_I5z_z0LOTHRyfN8/view?usp=sharing Introduction and Overview of Advisory Board activities, updates on DOI and new instruments]<br />
*Howard Singer - [https://drive.google.com/file/d/16poHzPvIM60z9Z7E_qXHznRGL80cjRRY/view?usp=sharing How ground magnetometers are currently incorporated into forecasts at SWPC, how they could be incorporated in the future]<br />
*Jennifer Gannon - How ground magnetometers can best be used to monitor/investigate GIC, utility-grade magnetometers<br />
*Endawoke Yizengaw - Open discussion with NSF, DRUM/DASI future proposal plans<br />
*Anna Kelbert - [https://drive.google.com/open?id=1XFHxruhasIRvZ3JDGtVtExZE6d87tM0X USGS Geomagnetism Program updates]<br />
*Peter Chi - update on ULTIMA activities / international collaboration<br />
*James Weygand - [https://drive.google.com/open?id=1Uq5ArdynNUk6ymbrBAcbFU9zbzH1eD3t Spherical Elementary Currents and Mid/Low Latitude Data Availability]<br />
*Walk-ins TBD (Amy Keesee/Mike Coughlin,...)<br />
<br />
<br />
== August 2020 Virtual Discussion: Ground Magnetometer Measurements for Heliophysics Research and Space Weather Monitoring ==<br />
<br />
Friday, 7 August, 1500-1630 EDT<br />
<br />
[https://drive.google.com/file/d/1uQ18wVmQC9de6zGn8wXVmXHvkomQPP63/view?usp=sharing Meeting Summary and Community Feedback from Google Form]<br />
<br />
Discussion from this meeting and previous meetings was summarized in this [https://drive.google.com/file/d/1-lrglV9h7OneMK8XK0yjnPk3XhhMMMNg/view?usp=sharing Heliophysics 2050 white paper].<br />
<br />
Invited Speakers<br />
* Syau-Yun Hsieh – [https://drive.google.com/file/d/1nRB6Xjc8F4tyGDtFHSoH6Tr3Kxh8hnkq/view?usp=sharing SMILE mission ground-based support]<br />
* Enrico Camporeale – [https://drive.google.com/file/d/1JiQTM6I4q9TIcEYDlHSfWwM1nkwaLjNS/view?usp=sharing Long-term continuous magnetometer data for geomagnetic activity prediction using machine learning]<br />
* Slava Merkin – [https://drive.google.com/file/d/1-nALz_h5IUMtUPPZKGQh3KNHS-GxbBqx/view?usp=sharing What is required of global magnetosphere-ionosphere-thermosphere models to predict ground magnetic perturbations]<br />
<br />
Project Updates<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/15fE4UXOXYYjACtDilek9s1DDd8h9ODho/view?usp=sharing SuperMAG]<br />
* Michelle Salzano, [https://drive.google.com/file/d/12fI2yM-q_fw-4-4cN_8Nsp3oECtohjPh/view?usp=sharing MICA]<br />
* Josh Rigler, [https://drive.google.com/file/d/1aYjQcO-56TyNB0U97bobyRVsu1D05iJo/view?usp=sharing USGS] <br />
* Jennifer Gannon, [https://drive.google.com/file/d/17KkpAGoV1OwOAsi8n6x3fTF2q6xk_CNV/view?usp=sharing MagStar]<br />
* Chuck Smith, [https://drive.google.com/file/d/1VuUgOTyFrrBxuvxmdbJoVgYeyEmAUgIw/view?usp=sharing Space Weather Underground]<br />
* Endawoke Yizengaw, iMAGS<br />
* Peter Chi, [https://drive.google.com/file/d/1CX26PkNjz_8mFhrmqX14ZxE1m8eO-Rw3/view?usp=sharing SMART]<br />
* Mark Moldwin, [https://drive.google.com/file/d/1zrSgS7iImyWW7rlXWtqheU4gWOLUS3LW/view?usp=sharing New Ground Mag and TEC/GPS system]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1thUuT5pZqMjWI4xR5ytT8IvXSRpBl72c/view?usp=sharing MACCS]<br />
* Don Hampton, [https://drive.google.com/file/d/1DQyBge17GT9r7Vjvjp5LYXio9yGUkLnU/view?usp=sharing GIMA]<br />
* Hyomin Kim, AGO<br />
* Mike Hartinger, [https://drive.google.com/file/d/1OArNCvEEsFdXwi7qmz9_WNQskhcRqBGW/view?usp=sharing AALPIP]<br />
<br />
== February 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research ==<br />
<br />
Thursday, 4 February, 1100-1230 US Eastern Time<br />
<br />
This virtual meeting will begin with an invited talk from Gary Egbert on current/future applications of ground magnetometers to geophysics research, including magnetotellurics research relevant to Heliophysics/GIC. This continues a series of discussions intended to gather feedback for the upcoming Heliophysics Decadal Survey.<br />
<br />
The rest of the meeting will be for updates from SuperMAG and individual magnetometer networks, NSF announcements, and discussion of magnetometer digital object identifiers.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
[https://agu.confex.com/agu/fm20/meetingapp.cgi/Paper/685551 Link] to Gary Egbert's 2020 AGU presentation, "Modeling Diurnal Variation Magnetic Fields for Mantle Induction Studies"<br />
<br />
* 1100-1105 Mike Hartinger, [https://drive.google.com/file/d/1FQUYC_Q0F3I97RAYrOsCN_piy9cu8OcG/view?usp=sharing Introduction and Updates on Digital Object Identifiers]<br />
* 1105-1125 Gary Egbert, [https://drive.google.com/file/d/1fvp4QiW5BpPxtlmopLaPxKp-x9SUX2Wx/view?usp=sharing Current and Future Applications of Ground Magnetometers to Geophysics Research]<br />
* 1125-1135 Jennifer Gannon, [https://drive.google.com/file/d/1AL3NasABl5eDSE-Gh71-MTcR8BuG-PpH/view?usp=sharing MagStar]<br />
* 1135-1145 Josh Rigler / Anna Kelbert, USGS Updates<br />
* 1145-1155 Whitham Reeve, [https://drive.google.com/file/d/1TUetaa2wE7W_b2-h0v3q287B0h6F8LzA/view?usp=sharing SAM-III]<br />
* 1155-1205 Rob Barnes / Matt Potter, [https://drive.google.com/file/d/1xXunj9lafw2m5C3AdDBHi6ZqTPpU-Jtf/view?usp=sharing SuperMAG Updates]<br />
* 1205-1215 [https://drive.google.com/file/d/1YDZB7mhG8rZS5EqzRIax4AvCL2wmm6q7/view?usp=sharing Collaboration tools and NSF opportunities]<br />
* 1215-1230 Additional Brief Project Updates: [https://drive.google.com/file/d/1R-SetUGvFfZyA0emtZtOxZ3WbjXXF2BN/view?usp=sharing MICA], [https://drive.google.com/file/d/1Z62YCvAGkvF2lJmHLAJOG3qtlFvYs09P/view?usp=sharing MACCS], [https://drive.google.com/file/d/1THwB7Cq0K5hhPhY_3BRh9R724FwXssD-/view?usp=sharing NJIT], [https://drive.google.com/file/d/17XYtKyofyw_1uRc1T69K2l7Qxiiccyau/view?usp=sharing AALPIP]<br />
<br />
== July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey ==<br />
<br />
Thursday, 8 July, 1200-1330 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey. The discussion began with several presentations related to open magnetometer science questions and infrastructure. The rest of the meeting was for open discussion on topics for magnetometer-related white papers for the decadal survey.<br />
<br />
[https://drive.google.com/file/d/1yEqAe-CuK0XQBLiP5vsrhEAg3LhRaIui/view?usp=sharing Meeting notes]<br />
<br />
* Mike Hartinger, [https://drive.google.com/file/d/1FVolkY5xVn4DeL_3TFQmLWIpcdl6vKHF/view?usp=sharing Overview of the Meeting, NSF Opportunities]<br />
* Adam Schultz, [https://drive.google.com/file/d/1iVcUlawbmcbkhyVZLdaLp1s-_f8QSKm7/view?usp=sharing Improving Situational Awareness of ground-level EM fields]<br />
* Dan Schneider, [https://drive.google.com/file/d/1KGiHVAEQkynAkKeqYFBwV0ynrrMAetke/view?usp=sharing QuakeFinder: Induction Coil Magnetometer Array]<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/1G4MGyKsbCIdBhNU0e3hoNqeA7HP_uZsD/view?usp=sharing SuperMAG news]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1pNoWfpl8XyaQ5qtKX1nMXJrzaxX3sIkk/view?usp=sharing Unresolved issues in MPE-GIC studies]<br />
<br />
== October 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (1) ==<br />
<br />
Thursday, 19 October, 1400-1530 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July 2021. This was a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== February 2022 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (2) ==<br />
<br />
Monday, 7 February, 1600-1700 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July and October 2021. The meeting started with a [https://drive.google.com/file/d/1TAjZPnhS60InWkukMMrVQh4rxzeZo0hd/view?usp=sharing presentation] discussing upcoming meetings and other announcements related to the Decadal Survey as well as plans for an over-arching ground magnetometer white paper. The remaining time was for a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== 2022 GEM Workshop meeting ==<br />
<br />
Monday, 20 June, 1030-1200 US Hawaii Time, Stingray room<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2022 GEM workshop. The session will begin with an introduction to both groups followed by an invited talk by Dr. Chigomezyo Ngwira on geomagnetically induced currents and geomagnetic disturbances. The remainder of the session will be for discussion of Solar and Space Physics Decadal Survey white papers related to ground magnetometers and short magnetometer network updates.<br />
<br />
* Mike Hartinger, Overview of the US Ground Magnetometer Group<br />
* Xueling Shi, Overview of the new GEM GIC focus group<br />
* Chigomezyo Ngwira, Review of Geomagnetic Disturbances and GIC<br />
* Mike Hartinger, Decadal survey discussions overview, overarching white paper<br />
* Jesper Gjerloev, Decadal survey white paper<br />
* All, Discussion of Decadal survey white papers<br />
* Magnetometer Network/SuperMAG Updates (1-slide each): Jesper Gjerloev (SuperMAG), Shane Coyle (AALPIP), Shane Coyle (GPS Rollover), Michelle Salzano (MICA-S), Hyomin Kim (HamSCI magnetometer), Hyomin Kim (Deep polar cap Antarctic network), Mark Engebretson (MACCS - presenting virtually)</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=US_Ground-based_magnetometer_arrays&diff=5779US Ground-based magnetometer arrays2022-06-13T19:15:16Z<p>Mdhartin: /* 2022 GEM Workshop meeting */</p>
<hr />
<div>=== US Ground Magnetometer Board ===<br />
<br />
This wiki page and related ground magnetometer board meetings are part of a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts. For more information about the current state and future of ground magnetometer networks in support of space weather monitoring and research, see this article in [https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017SW001718 Space Weather]. <br />
<br />
''Current Ground Magnetometer Board Members:''<br />
* Peter Chi<br />
* Mark Engebretson, (former chair)<br />
* Jennifer Gannon<br />
* Jesper Gjerloev<br />
* Michael Hartinger, (current chair, mhartinger@spacescience.org)<br />
* Hyomin Kim<br />
* Gang Lu<br />
* Josh Rigler<br />
* Michelle Salzano<br />
* Howard Singer<br />
* Endawoke Yizengaw<br />
<br />
''Former Ground Magnetometer Board Members:''<br />
* Carol Finn<br />
* Efthyia Zesta<br />
<br />
=== US-Sponsored Ground-Based Magnetometer Arrays and Programs* ===<br />
<br />
{| class="wikitable" style="width: 50%; height: 4em;"<br />
|-<br />
| Array || Location || Instruments || Manufacturer || No. of Locations<br />
|-<br />
| AAL-PIP || Antarctica || Fluxgate || Lviv Centre ISR || 6<br />
|-<br />
| AAL-PIP || Antarctica || Induction Coil || UNH || 4<br />
|-<br />
| AMBER || Africa || Fluxgate || UCLA || 7<br />
|-<br />
| AMBER || South America || Fluxgate || UCLA || 2<br />
|-<br />
| AMBER || East Asia || Fluxgate || UCLA || 4<br />
|-<br />
| Falcon || Continental US || Fluxgate || UCLA || 11<br />
|-<br />
| GIMA || Alaska || Fluxgate || Narod || 9<br />
|-<br />
| Jicamarca || South America || Fluxgate || UCLA || 2<br />
|-<br />
| LISN || South America || Fluxgate || Custom/Jicamarca || 6<br />
|-<br />
| MACCS || Arctic Canada || Fluxgate || Narod || 8<br />
|-<br />
| McMAC || Continental US & Mexico || Fluxgate || UCLA || 9<br />
|-<br />
| MEASURE || Continental US || Fluxgate || UCLA || 6<br />
|-<br />
| SAMBA || South America & Antarctica || Fluxgate || UCLA || 12<br />
|-<br />
| THEMIS || Continental US & Canada || Fluxgate || UCLA || 24<br />
|-<br />
| US Geological Survey || US & Territories || Fluxgate || Narod, Technical Univ of Denmark || 11<br />
|-<br />
| NJIT / AGO || Antarctica || Fluxgate || Bell Labs || 7<br />
|-<br />
| NJIT / AGO || Antarctica || Induction Coil || Tohoku University || 5<br />
|-<br />
| MICA || Antarctica || Induction Coil || UNH || 5<br />
|-<br />
| MICA || Arctic Canada || Induction Coil || UNH || 4<br />
|-<br />
| MICA || Svalbard || Induction Coil || UNH || 4<br />
|}<br />
<br />
*Some locations listed here have instruments that are not currently operating.<br />
<br />
=== Ground Magnetometer Data ===<br />
<br />
[http://supermag.jhuapl.edu/ SuperMAG]<br />
<br />
[https://www.usgs.gov/natural-hazards/geomagnetism/data-tools USGS Geomagnetism Program]<br />
<br />
[https://www.intermagnet.org/ INTERMAGNET]<br />
<br />
[http://vmo.igpp.ucla.edu/data1/SECS/Quicklook/ Spherical Elementary Currents] from James Weygand<br />
<br />
[http://themis.ssl.berkeley.edu/gmag/gmag_list.php?selyear=4000&selmonth=13&smap=on&sinfo=on&saelist=on&ae=on THEMIS]<br />
<br />
[https://cdaweb.gsfc.nasa.gov/index.html/ NASA CDAWeb]<br />
<br />
[http://mirl.unh.edu/ulf_status.html UNH Magnetic Induction Coil Array (MICA)]<br />
<br />
[http://search.iugonet.org/list.jsp IUGONET]<br />
<br />
=== Digital Object Identifiers for Ground Magnetometer Data ===<br />
<br />
Digital Object Identifiers (DOI) allow authors to cite data products just as they refer to papers. This is becoming a requirement of many journals, as it assures that the specific data used in a publication are findable and accessible. The DOI provides a permanent identifier (PID) for the data, remaining unchanged even if the data are moved to another archive. The "creators" (authors) of the data must link the DOI to a "landing page" that provides details about the data and methods for accessing them. Our group recommends that each ground magnetometer network generate DOIs for their datasets, at minimum one DOI for their original measurements (i.e., before filtering and other types of processing are performed).<br />
<br />
As a member of the [https://datacite.org DataCite organization], NASA Heliophysics (HP) can "mint" DOIs for ground magnetometer datasets. NASA HP is providing an easy means to assign DOIs to datasets using the HP Digital Resource Registry (HDRR) by providing landing pages for datasets based on their "SPASE" resource descriptions. As an example, any users of NASA's OMNI dataset can now use https://doi.org/10.48322/1shr-ht18 for the hourly dataset, and other DOIs for other sets, discoverable by a search with the Heliophysics Data Portal (HDP; https://heliophysicsdata.gsfc.nasa.gov; look for "omni" in the "observatory" entry at the left). More details for DOI initiation for resources in the HDP can be found [https://hpde.gsfc.nasa.gov/DOI_Initiative_October_2020.pdf here]. For further information, and especially to start the process of registering DOIs, contact James Weygand (jweygand@igpp.ucla.edu or jweygand@epss.ucla.edu).<br />
<br />
As noted above, a SPASE resource description is required for each magnetometer dataset to mint a DOI. Here's an example for the [https://drive.google.com/file/d/1MxEDFAa_grGuCdID9vwK9pRzkzH7FQYR/view?usp=sharing MACCS magnetometer network 5s measurements].<br />
<br />
== 2019 GEM workshop meeting ==<br />
<br />
The ground magnetometer advisory board was formed in 2016 as a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts.<br />
<br />
We invite the GEM community to attend our meeting on Monday, June 24 at 1:30 PM, where we’ll discuss updates on all the above items. Later this year, we’ll add new members to the advisory board who either operate ground magnetometers or use magnetometer data to support their scientific investigations and/or space weather monitoring efforts. If you’re interested in learning more about this opportunity, please attend this GEM meeting or contact Mike Hartinger (mdhartin@vt.edu).<br />
<br />
Monday, 24 June, 1:30 PM, Location: Santa Fe<br />
*Mike Hartinger - Updates on ground magnetometer advisory board activities<br />
*Mark Engebretson - Summary of information gathering report<br />
*Lisa Winter - NSF updates<br />
*Hyomin Kim - DRUM/DASI updates and future plans, discussion<br />
*Jesper Gjerloev - SuperMAG updates<br />
*Josh Rigler - USGS updates, updates from other magnetometer arrays<br />
<br />
== 2019 mini-GEM workshop meeting ==<br />
<br />
Sunday, 8 December, 1200-1330, Location: Oregon Room<br />
*Mike Hartinger - [https://drive.google.com/file/d/1f3nDkQU4Red2gBLe_I5z_z0LOTHRyfN8/view?usp=sharing Introduction and Overview of Advisory Board activities, updates on DOI and new instruments]<br />
*Howard Singer - [https://drive.google.com/file/d/16poHzPvIM60z9Z7E_qXHznRGL80cjRRY/view?usp=sharing How ground magnetometers are currently incorporated into forecasts at SWPC, how they could be incorporated in the future]<br />
*Jennifer Gannon - How ground magnetometers can best be used to monitor/investigate GIC, utility-grade magnetometers<br />
*Endawoke Yizengaw - Open discussion with NSF, DRUM/DASI future proposal plans<br />
*Anna Kelbert - [https://drive.google.com/open?id=1XFHxruhasIRvZ3JDGtVtExZE6d87tM0X USGS Geomagnetism Program updates]<br />
*Peter Chi - update on ULTIMA activities / international collaboration<br />
*James Weygand - [https://drive.google.com/open?id=1Uq5ArdynNUk6ymbrBAcbFU9zbzH1eD3t Spherical Elementary Currents and Mid/Low Latitude Data Availability]<br />
*Walk-ins TBD (Amy Keesee/Mike Coughlin,...)<br />
<br />
<br />
== August 2020 Virtual Discussion: Ground Magnetometer Measurements for Heliophysics Research and Space Weather Monitoring ==<br />
<br />
Friday, 7 August, 1500-1630 EDT<br />
<br />
[https://drive.google.com/file/d/1uQ18wVmQC9de6zGn8wXVmXHvkomQPP63/view?usp=sharing Meeting Summary and Community Feedback from Google Form]<br />
<br />
Discussion from this meeting and previous meetings was summarized in this [https://drive.google.com/file/d/1-lrglV9h7OneMK8XK0yjnPk3XhhMMMNg/view?usp=sharing Heliophysics 2050 white paper].<br />
<br />
Invited Speakers<br />
* Syau-Yun Hsieh – [https://drive.google.com/file/d/1nRB6Xjc8F4tyGDtFHSoH6Tr3Kxh8hnkq/view?usp=sharing SMILE mission ground-based support]<br />
* Enrico Camporeale – [https://drive.google.com/file/d/1JiQTM6I4q9TIcEYDlHSfWwM1nkwaLjNS/view?usp=sharing Long-term continuous magnetometer data for geomagnetic activity prediction using machine learning]<br />
* Slava Merkin – [https://drive.google.com/file/d/1-nALz_h5IUMtUPPZKGQh3KNHS-GxbBqx/view?usp=sharing What is required of global magnetosphere-ionosphere-thermosphere models to predict ground magnetic perturbations]<br />
<br />
Project Updates<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/15fE4UXOXYYjACtDilek9s1DDd8h9ODho/view?usp=sharing SuperMAG]<br />
* Michelle Salzano, [https://drive.google.com/file/d/12fI2yM-q_fw-4-4cN_8Nsp3oECtohjPh/view?usp=sharing MICA]<br />
* Josh Rigler, [https://drive.google.com/file/d/1aYjQcO-56TyNB0U97bobyRVsu1D05iJo/view?usp=sharing USGS] <br />
* Jennifer Gannon, [https://drive.google.com/file/d/17KkpAGoV1OwOAsi8n6x3fTF2q6xk_CNV/view?usp=sharing MagStar]<br />
* Chuck Smith, [https://drive.google.com/file/d/1VuUgOTyFrrBxuvxmdbJoVgYeyEmAUgIw/view?usp=sharing Space Weather Underground]<br />
* Endawoke Yizengaw, iMAGS<br />
* Peter Chi, [https://drive.google.com/file/d/1CX26PkNjz_8mFhrmqX14ZxE1m8eO-Rw3/view?usp=sharing SMART]<br />
* Mark Moldwin, [https://drive.google.com/file/d/1zrSgS7iImyWW7rlXWtqheU4gWOLUS3LW/view?usp=sharing New Ground Mag and TEC/GPS system]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1thUuT5pZqMjWI4xR5ytT8IvXSRpBl72c/view?usp=sharing MACCS]<br />
* Don Hampton, [https://drive.google.com/file/d/1DQyBge17GT9r7Vjvjp5LYXio9yGUkLnU/view?usp=sharing GIMA]<br />
* Hyomin Kim, AGO<br />
* Mike Hartinger, [https://drive.google.com/file/d/1OArNCvEEsFdXwi7qmz9_WNQskhcRqBGW/view?usp=sharing AALPIP]<br />
<br />
== February 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research ==<br />
<br />
Thursday, 4 February, 1100-1230 US Eastern Time<br />
<br />
This virtual meeting will begin with an invited talk from Gary Egbert on current/future applications of ground magnetometers to geophysics research, including magnetotellurics research relevant to Heliophysics/GIC. This continues a series of discussions intended to gather feedback for the upcoming Heliophysics Decadal Survey.<br />
<br />
The rest of the meeting will be for updates from SuperMAG and individual magnetometer networks, NSF announcements, and discussion of magnetometer digital object identifiers.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
[https://agu.confex.com/agu/fm20/meetingapp.cgi/Paper/685551 Link] to Gary Egbert's 2020 AGU presentation, "Modeling Diurnal Variation Magnetic Fields for Mantle Induction Studies"<br />
<br />
* 1100-1105 Mike Hartinger, [https://drive.google.com/file/d/1FQUYC_Q0F3I97RAYrOsCN_piy9cu8OcG/view?usp=sharing Introduction and Updates on Digital Object Identifiers]<br />
* 1105-1125 Gary Egbert, [https://drive.google.com/file/d/1fvp4QiW5BpPxtlmopLaPxKp-x9SUX2Wx/view?usp=sharing Current and Future Applications of Ground Magnetometers to Geophysics Research]<br />
* 1125-1135 Jennifer Gannon, [https://drive.google.com/file/d/1AL3NasABl5eDSE-Gh71-MTcR8BuG-PpH/view?usp=sharing MagStar]<br />
* 1135-1145 Josh Rigler / Anna Kelbert, USGS Updates<br />
* 1145-1155 Whitham Reeve, [https://drive.google.com/file/d/1TUetaa2wE7W_b2-h0v3q287B0h6F8LzA/view?usp=sharing SAM-III]<br />
* 1155-1205 Rob Barnes / Matt Potter, [https://drive.google.com/file/d/1xXunj9lafw2m5C3AdDBHi6ZqTPpU-Jtf/view?usp=sharing SuperMAG Updates]<br />
* 1205-1215 [https://drive.google.com/file/d/1YDZB7mhG8rZS5EqzRIax4AvCL2wmm6q7/view?usp=sharing Collaboration tools and NSF opportunities]<br />
* 1215-1230 Additional Brief Project Updates: [https://drive.google.com/file/d/1R-SetUGvFfZyA0emtZtOxZ3WbjXXF2BN/view?usp=sharing MICA], [https://drive.google.com/file/d/1Z62YCvAGkvF2lJmHLAJOG3qtlFvYs09P/view?usp=sharing MACCS], [https://drive.google.com/file/d/1THwB7Cq0K5hhPhY_3BRh9R724FwXssD-/view?usp=sharing NJIT], [https://drive.google.com/file/d/17XYtKyofyw_1uRc1T69K2l7Qxiiccyau/view?usp=sharing AALPIP]<br />
<br />
== July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey ==<br />
<br />
Thursday, 8 July, 1200-1330 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey. The discussion began with several presentations related to open magnetometer science questions and infrastructure. The rest of the meeting was for open discussion on topics for magnetometer-related white papers for the decadal survey.<br />
<br />
[https://drive.google.com/file/d/1yEqAe-CuK0XQBLiP5vsrhEAg3LhRaIui/view?usp=sharing Meeting notes]<br />
<br />
* Mike Hartinger, [https://drive.google.com/file/d/1FVolkY5xVn4DeL_3TFQmLWIpcdl6vKHF/view?usp=sharing Overview of the Meeting, NSF Opportunities]<br />
* Adam Schultz, [https://drive.google.com/file/d/1iVcUlawbmcbkhyVZLdaLp1s-_f8QSKm7/view?usp=sharing Improving Situational Awareness of ground-level EM fields]<br />
* Dan Schneider, [https://drive.google.com/file/d/1KGiHVAEQkynAkKeqYFBwV0ynrrMAetke/view?usp=sharing QuakeFinder: Induction Coil Magnetometer Array]<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/1G4MGyKsbCIdBhNU0e3hoNqeA7HP_uZsD/view?usp=sharing SuperMAG news]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1pNoWfpl8XyaQ5qtKX1nMXJrzaxX3sIkk/view?usp=sharing Unresolved issues in MPE-GIC studies]<br />
<br />
== October 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (1) ==<br />
<br />
Thursday, 19 October, 1400-1530 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July 2021. This was a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== February 2022 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (2) ==<br />
<br />
Monday, 7 February, 1600-1700 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July and October 2021. The meeting started with a [https://drive.google.com/file/d/1TAjZPnhS60InWkukMMrVQh4rxzeZo0hd/view?usp=sharing presentation] discussing upcoming meetings and other announcements related to the Decadal Survey as well as plans for an over-arching ground magnetometer white paper. The remaining time was for a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== 2022 GEM Workshop meeting ==<br />
<br />
Monday, 20 June, 1030-1200 US Hawaii Time<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2022 GEM workshop. The session will begin with an introduction to both groups followed by an invited talk by Dr. Chigomezyo Ngwira on geomagnetically induced currents and geomagnetic disturbances. The remainder of the session will be for discussion of Solar and Space Physics Decadal Survey white papers related to ground magnetometers and short magnetometer network updates.<br />
<br />
* Mike Hartinger, Overview of the US Ground Magnetometer Group<br />
* Xueling Shi, Overview of the new GEM GIC focus group<br />
* Chigomezyo Ngwira, Review of Geomagnetic Disturbances and GIC<br />
* Mike Hartinger, Decadal survey discussions overview, overarching white paper<br />
* Jesper Gjerloev, Decadal survey white paper<br />
* All, Discussion of Decadal survey white papers<br />
* Magnetometer Network/SuperMAG Updates (1-slide each): Jesper Gjerloev (SuperMAG), Shane Coyle (AALPIP), Shane Coyle (GPS Rollover), Michelle Salzano (MICA-S), Hyomin Kim (HamSCI magnetometer), Hyomin Kim (Deep polar cap Antarctic network), Mark Engebretson (MACCS - presenting virtually)</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=US_Ground-based_magnetometer_arrays&diff=5778US Ground-based magnetometer arrays2022-06-13T19:11:41Z<p>Mdhartin: /* 2022 GEM Workshop meeting */</p>
<hr />
<div>=== US Ground Magnetometer Board ===<br />
<br />
This wiki page and related ground magnetometer board meetings are part of a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts. For more information about the current state and future of ground magnetometer networks in support of space weather monitoring and research, see this article in [https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017SW001718 Space Weather]. <br />
<br />
''Current Ground Magnetometer Board Members:''<br />
* Peter Chi<br />
* Mark Engebretson, (former chair)<br />
* Jennifer Gannon<br />
* Jesper Gjerloev<br />
* Michael Hartinger, (current chair, mhartinger@spacescience.org)<br />
* Hyomin Kim<br />
* Gang Lu<br />
* Josh Rigler<br />
* Michelle Salzano<br />
* Howard Singer<br />
* Endawoke Yizengaw<br />
<br />
''Former Ground Magnetometer Board Members:''<br />
* Carol Finn<br />
* Efthyia Zesta<br />
<br />
=== US-Sponsored Ground-Based Magnetometer Arrays and Programs* ===<br />
<br />
{| class="wikitable" style="width: 50%; height: 4em;"<br />
|-<br />
| Array || Location || Instruments || Manufacturer || No. of Locations<br />
|-<br />
| AAL-PIP || Antarctica || Fluxgate || Lviv Centre ISR || 6<br />
|-<br />
| AAL-PIP || Antarctica || Induction Coil || UNH || 4<br />
|-<br />
| AMBER || Africa || Fluxgate || UCLA || 7<br />
|-<br />
| AMBER || South America || Fluxgate || UCLA || 2<br />
|-<br />
| AMBER || East Asia || Fluxgate || UCLA || 4<br />
|-<br />
| Falcon || Continental US || Fluxgate || UCLA || 11<br />
|-<br />
| GIMA || Alaska || Fluxgate || Narod || 9<br />
|-<br />
| Jicamarca || South America || Fluxgate || UCLA || 2<br />
|-<br />
| LISN || South America || Fluxgate || Custom/Jicamarca || 6<br />
|-<br />
| MACCS || Arctic Canada || Fluxgate || Narod || 8<br />
|-<br />
| McMAC || Continental US & Mexico || Fluxgate || UCLA || 9<br />
|-<br />
| MEASURE || Continental US || Fluxgate || UCLA || 6<br />
|-<br />
| SAMBA || South America & Antarctica || Fluxgate || UCLA || 12<br />
|-<br />
| THEMIS || Continental US & Canada || Fluxgate || UCLA || 24<br />
|-<br />
| US Geological Survey || US & Territories || Fluxgate || Narod, Technical Univ of Denmark || 11<br />
|-<br />
| NJIT / AGO || Antarctica || Fluxgate || Bell Labs || 7<br />
|-<br />
| NJIT / AGO || Antarctica || Induction Coil || Tohoku University || 5<br />
|-<br />
| MICA || Antarctica || Induction Coil || UNH || 5<br />
|-<br />
| MICA || Arctic Canada || Induction Coil || UNH || 4<br />
|-<br />
| MICA || Svalbard || Induction Coil || UNH || 4<br />
|}<br />
<br />
*Some locations listed here have instruments that are not currently operating.<br />
<br />
=== Ground Magnetometer Data ===<br />
<br />
[http://supermag.jhuapl.edu/ SuperMAG]<br />
<br />
[https://www.usgs.gov/natural-hazards/geomagnetism/data-tools USGS Geomagnetism Program]<br />
<br />
[https://www.intermagnet.org/ INTERMAGNET]<br />
<br />
[http://vmo.igpp.ucla.edu/data1/SECS/Quicklook/ Spherical Elementary Currents] from James Weygand<br />
<br />
[http://themis.ssl.berkeley.edu/gmag/gmag_list.php?selyear=4000&selmonth=13&smap=on&sinfo=on&saelist=on&ae=on THEMIS]<br />
<br />
[https://cdaweb.gsfc.nasa.gov/index.html/ NASA CDAWeb]<br />
<br />
[http://mirl.unh.edu/ulf_status.html UNH Magnetic Induction Coil Array (MICA)]<br />
<br />
[http://search.iugonet.org/list.jsp IUGONET]<br />
<br />
=== Digital Object Identifiers for Ground Magnetometer Data ===<br />
<br />
Digital Object Identifiers (DOI) allow authors to cite data products just as they refer to papers. This is becoming a requirement of many journals, as it assures that the specific data used in a publication are findable and accessible. The DOI provides a permanent identifier (PID) for the data, remaining unchanged even if the data are moved to another archive. The "creators" (authors) of the data must link the DOI to a "landing page" that provides details about the data and methods for accessing them. Our group recommends that each ground magnetometer network generate DOIs for their datasets, at minimum one DOI for their original measurements (i.e., before filtering and other types of processing are performed).<br />
<br />
As a member of the [https://datacite.org DataCite organization], NASA Heliophysics (HP) can "mint" DOIs for ground magnetometer datasets. NASA HP is providing an easy means to assign DOIs to datasets using the HP Digital Resource Registry (HDRR) by providing landing pages for datasets based on their "SPASE" resource descriptions. As an example, any users of NASA's OMNI dataset can now use https://doi.org/10.48322/1shr-ht18 for the hourly dataset, and other DOIs for other sets, discoverable by a search with the Heliophysics Data Portal (HDP; https://heliophysicsdata.gsfc.nasa.gov; look for "omni" in the "observatory" entry at the left). More details for DOI initiation for resources in the HDP can be found [https://hpde.gsfc.nasa.gov/DOI_Initiative_October_2020.pdf here]. For further information, and especially to start the process of registering DOIs, contact James Weygand (jweygand@igpp.ucla.edu or jweygand@epss.ucla.edu).<br />
<br />
As noted above, a SPASE resource description is required for each magnetometer dataset to mint a DOI. Here's an example for the [https://drive.google.com/file/d/1MxEDFAa_grGuCdID9vwK9pRzkzH7FQYR/view?usp=sharing MACCS magnetometer network 5s measurements].<br />
<br />
== 2019 GEM workshop meeting ==<br />
<br />
The ground magnetometer advisory board was formed in 2016 as a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts.<br />
<br />
We invite the GEM community to attend our meeting on Monday, June 24 at 1:30 PM, where we’ll discuss updates on all the above items. Later this year, we’ll add new members to the advisory board who either operate ground magnetometers or use magnetometer data to support their scientific investigations and/or space weather monitoring efforts. If you’re interested in learning more about this opportunity, please attend this GEM meeting or contact Mike Hartinger (mdhartin@vt.edu).<br />
<br />
Monday, 24 June, 1:30 PM, Location: Santa Fe<br />
*Mike Hartinger - Updates on ground magnetometer advisory board activities<br />
*Mark Engebretson - Summary of information gathering report<br />
*Lisa Winter - NSF updates<br />
*Hyomin Kim - DRUM/DASI updates and future plans, discussion<br />
*Jesper Gjerloev - SuperMAG updates<br />
*Josh Rigler - USGS updates, updates from other magnetometer arrays<br />
<br />
== 2019 mini-GEM workshop meeting ==<br />
<br />
Sunday, 8 December, 1200-1330, Location: Oregon Room<br />
*Mike Hartinger - [https://drive.google.com/file/d/1f3nDkQU4Red2gBLe_I5z_z0LOTHRyfN8/view?usp=sharing Introduction and Overview of Advisory Board activities, updates on DOI and new instruments]<br />
*Howard Singer - [https://drive.google.com/file/d/16poHzPvIM60z9Z7E_qXHznRGL80cjRRY/view?usp=sharing How ground magnetometers are currently incorporated into forecasts at SWPC, how they could be incorporated in the future]<br />
*Jennifer Gannon - How ground magnetometers can best be used to monitor/investigate GIC, utility-grade magnetometers<br />
*Endawoke Yizengaw - Open discussion with NSF, DRUM/DASI future proposal plans<br />
*Anna Kelbert - [https://drive.google.com/open?id=1XFHxruhasIRvZ3JDGtVtExZE6d87tM0X USGS Geomagnetism Program updates]<br />
*Peter Chi - update on ULTIMA activities / international collaboration<br />
*James Weygand - [https://drive.google.com/open?id=1Uq5ArdynNUk6ymbrBAcbFU9zbzH1eD3t Spherical Elementary Currents and Mid/Low Latitude Data Availability]<br />
*Walk-ins TBD (Amy Keesee/Mike Coughlin,...)<br />
<br />
<br />
== August 2020 Virtual Discussion: Ground Magnetometer Measurements for Heliophysics Research and Space Weather Monitoring ==<br />
<br />
Friday, 7 August, 1500-1630 EDT<br />
<br />
[https://drive.google.com/file/d/1uQ18wVmQC9de6zGn8wXVmXHvkomQPP63/view?usp=sharing Meeting Summary and Community Feedback from Google Form]<br />
<br />
Discussion from this meeting and previous meetings was summarized in this [https://drive.google.com/file/d/1-lrglV9h7OneMK8XK0yjnPk3XhhMMMNg/view?usp=sharing Heliophysics 2050 white paper].<br />
<br />
Invited Speakers<br />
* Syau-Yun Hsieh – [https://drive.google.com/file/d/1nRB6Xjc8F4tyGDtFHSoH6Tr3Kxh8hnkq/view?usp=sharing SMILE mission ground-based support]<br />
* Enrico Camporeale – [https://drive.google.com/file/d/1JiQTM6I4q9TIcEYDlHSfWwM1nkwaLjNS/view?usp=sharing Long-term continuous magnetometer data for geomagnetic activity prediction using machine learning]<br />
* Slava Merkin – [https://drive.google.com/file/d/1-nALz_h5IUMtUPPZKGQh3KNHS-GxbBqx/view?usp=sharing What is required of global magnetosphere-ionosphere-thermosphere models to predict ground magnetic perturbations]<br />
<br />
Project Updates<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/15fE4UXOXYYjACtDilek9s1DDd8h9ODho/view?usp=sharing SuperMAG]<br />
* Michelle Salzano, [https://drive.google.com/file/d/12fI2yM-q_fw-4-4cN_8Nsp3oECtohjPh/view?usp=sharing MICA]<br />
* Josh Rigler, [https://drive.google.com/file/d/1aYjQcO-56TyNB0U97bobyRVsu1D05iJo/view?usp=sharing USGS] <br />
* Jennifer Gannon, [https://drive.google.com/file/d/17KkpAGoV1OwOAsi8n6x3fTF2q6xk_CNV/view?usp=sharing MagStar]<br />
* Chuck Smith, [https://drive.google.com/file/d/1VuUgOTyFrrBxuvxmdbJoVgYeyEmAUgIw/view?usp=sharing Space Weather Underground]<br />
* Endawoke Yizengaw, iMAGS<br />
* Peter Chi, [https://drive.google.com/file/d/1CX26PkNjz_8mFhrmqX14ZxE1m8eO-Rw3/view?usp=sharing SMART]<br />
* Mark Moldwin, [https://drive.google.com/file/d/1zrSgS7iImyWW7rlXWtqheU4gWOLUS3LW/view?usp=sharing New Ground Mag and TEC/GPS system]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1thUuT5pZqMjWI4xR5ytT8IvXSRpBl72c/view?usp=sharing MACCS]<br />
* Don Hampton, [https://drive.google.com/file/d/1DQyBge17GT9r7Vjvjp5LYXio9yGUkLnU/view?usp=sharing GIMA]<br />
* Hyomin Kim, AGO<br />
* Mike Hartinger, [https://drive.google.com/file/d/1OArNCvEEsFdXwi7qmz9_WNQskhcRqBGW/view?usp=sharing AALPIP]<br />
<br />
== February 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research ==<br />
<br />
Thursday, 4 February, 1100-1230 US Eastern Time<br />
<br />
This virtual meeting will begin with an invited talk from Gary Egbert on current/future applications of ground magnetometers to geophysics research, including magnetotellurics research relevant to Heliophysics/GIC. This continues a series of discussions intended to gather feedback for the upcoming Heliophysics Decadal Survey.<br />
<br />
The rest of the meeting will be for updates from SuperMAG and individual magnetometer networks, NSF announcements, and discussion of magnetometer digital object identifiers.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
[https://agu.confex.com/agu/fm20/meetingapp.cgi/Paper/685551 Link] to Gary Egbert's 2020 AGU presentation, "Modeling Diurnal Variation Magnetic Fields for Mantle Induction Studies"<br />
<br />
* 1100-1105 Mike Hartinger, [https://drive.google.com/file/d/1FQUYC_Q0F3I97RAYrOsCN_piy9cu8OcG/view?usp=sharing Introduction and Updates on Digital Object Identifiers]<br />
* 1105-1125 Gary Egbert, [https://drive.google.com/file/d/1fvp4QiW5BpPxtlmopLaPxKp-x9SUX2Wx/view?usp=sharing Current and Future Applications of Ground Magnetometers to Geophysics Research]<br />
* 1125-1135 Jennifer Gannon, [https://drive.google.com/file/d/1AL3NasABl5eDSE-Gh71-MTcR8BuG-PpH/view?usp=sharing MagStar]<br />
* 1135-1145 Josh Rigler / Anna Kelbert, USGS Updates<br />
* 1145-1155 Whitham Reeve, [https://drive.google.com/file/d/1TUetaa2wE7W_b2-h0v3q287B0h6F8LzA/view?usp=sharing SAM-III]<br />
* 1155-1205 Rob Barnes / Matt Potter, [https://drive.google.com/file/d/1xXunj9lafw2m5C3AdDBHi6ZqTPpU-Jtf/view?usp=sharing SuperMAG Updates]<br />
* 1205-1215 [https://drive.google.com/file/d/1YDZB7mhG8rZS5EqzRIax4AvCL2wmm6q7/view?usp=sharing Collaboration tools and NSF opportunities]<br />
* 1215-1230 Additional Brief Project Updates: [https://drive.google.com/file/d/1R-SetUGvFfZyA0emtZtOxZ3WbjXXF2BN/view?usp=sharing MICA], [https://drive.google.com/file/d/1Z62YCvAGkvF2lJmHLAJOG3qtlFvYs09P/view?usp=sharing MACCS], [https://drive.google.com/file/d/1THwB7Cq0K5hhPhY_3BRh9R724FwXssD-/view?usp=sharing NJIT], [https://drive.google.com/file/d/17XYtKyofyw_1uRc1T69K2l7Qxiiccyau/view?usp=sharing AALPIP]<br />
<br />
== July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey ==<br />
<br />
Thursday, 8 July, 1200-1330 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey. The discussion began with several presentations related to open magnetometer science questions and infrastructure. The rest of the meeting was for open discussion on topics for magnetometer-related white papers for the decadal survey.<br />
<br />
[https://drive.google.com/file/d/1yEqAe-CuK0XQBLiP5vsrhEAg3LhRaIui/view?usp=sharing Meeting notes]<br />
<br />
* Mike Hartinger, [https://drive.google.com/file/d/1FVolkY5xVn4DeL_3TFQmLWIpcdl6vKHF/view?usp=sharing Overview of the Meeting, NSF Opportunities]<br />
* Adam Schultz, [https://drive.google.com/file/d/1iVcUlawbmcbkhyVZLdaLp1s-_f8QSKm7/view?usp=sharing Improving Situational Awareness of ground-level EM fields]<br />
* Dan Schneider, [https://drive.google.com/file/d/1KGiHVAEQkynAkKeqYFBwV0ynrrMAetke/view?usp=sharing QuakeFinder: Induction Coil Magnetometer Array]<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/1G4MGyKsbCIdBhNU0e3hoNqeA7HP_uZsD/view?usp=sharing SuperMAG news]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1pNoWfpl8XyaQ5qtKX1nMXJrzaxX3sIkk/view?usp=sharing Unresolved issues in MPE-GIC studies]<br />
<br />
== October 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (1) ==<br />
<br />
Thursday, 19 October, 1400-1530 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July 2021. This was a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== February 2022 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (2) ==<br />
<br />
Monday, 7 February, 1600-1700 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July and October 2021. The meeting started with a [https://drive.google.com/file/d/1TAjZPnhS60InWkukMMrVQh4rxzeZo0hd/view?usp=sharing presentation] discussing upcoming meetings and other announcements related to the Decadal Survey as well as plans for an over-arching ground magnetometer white paper. The remaining time was for a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== 2022 GEM Workshop meeting ==<br />
<br />
Monday, 20 June, 1030-1200 US Hawaii Time<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2022 GEM workshop. The session will begin with an introduction to both groups followed by an invited talk by Dr. Chigomezyo Ngwira on geomagnetically induced currents and geomagnetic disturbances. The remainder of the session will be for discussion of Solar and Space Physics Decadal Survey white papers related to ground magnetometers and short magnetometer network updates.<br />
<br />
* Mike Hartinger, Overview of the US Ground Magnetometer Group<br />
* Xueling Shi, Overview of the new GEM GIC focus group<br />
* Chigomezyo Ngwira, Review of Geomagnetic Disturbances and GIC<br />
* Mike Hartinger, Decadal survey discussions overview, overarching white paper<br />
* Jesper Gjerloev, Decadal survey white paper<br />
* All, Discussion of Decadal survey white papers<br />
* Magnetometer Network/SuperMAG Updates (1-slide each): Jesper Gjerloev (SuperMAG), Shane Coyle (AALPIP), Shane Coyle (GPS Rollover), Michelle Salzano (MICA-S), Hyomin Kim (HamSCI magnetometer), Hyomin Kim (Deep polar cap Antarctic network)</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=US_Ground-based_magnetometer_arrays&diff=5709US Ground-based magnetometer arrays2022-06-04T14:18:19Z<p>Mdhartin: /* 2022 GEM Workshop meeting */</p>
<hr />
<div>=== US Ground Magnetometer Board ===<br />
<br />
This wiki page and related ground magnetometer board meetings are part of a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts. For more information about the current state and future of ground magnetometer networks in support of space weather monitoring and research, see this article in [https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017SW001718 Space Weather]. <br />
<br />
''Current Ground Magnetometer Board Members:''<br />
* Peter Chi<br />
* Mark Engebretson, (former chair)<br />
* Jennifer Gannon<br />
* Jesper Gjerloev<br />
* Michael Hartinger, (current chair, mhartinger@spacescience.org)<br />
* Hyomin Kim<br />
* Gang Lu<br />
* Josh Rigler<br />
* Michelle Salzano<br />
* Howard Singer<br />
* Endawoke Yizengaw<br />
<br />
''Former Ground Magnetometer Board Members:''<br />
* Carol Finn<br />
* Efthyia Zesta<br />
<br />
=== US-Sponsored Ground-Based Magnetometer Arrays and Programs* ===<br />
<br />
{| class="wikitable" style="width: 50%; height: 4em;"<br />
|-<br />
| Array || Location || Instruments || Manufacturer || No. of Locations<br />
|-<br />
| AAL-PIP || Antarctica || Fluxgate || Lviv Centre ISR || 6<br />
|-<br />
| AAL-PIP || Antarctica || Induction Coil || UNH || 4<br />
|-<br />
| AMBER || Africa || Fluxgate || UCLA || 7<br />
|-<br />
| AMBER || South America || Fluxgate || UCLA || 2<br />
|-<br />
| AMBER || East Asia || Fluxgate || UCLA || 4<br />
|-<br />
| Falcon || Continental US || Fluxgate || UCLA || 11<br />
|-<br />
| GIMA || Alaska || Fluxgate || Narod || 9<br />
|-<br />
| Jicamarca || South America || Fluxgate || UCLA || 2<br />
|-<br />
| LISN || South America || Fluxgate || Custom/Jicamarca || 6<br />
|-<br />
| MACCS || Arctic Canada || Fluxgate || Narod || 8<br />
|-<br />
| McMAC || Continental US & Mexico || Fluxgate || UCLA || 9<br />
|-<br />
| MEASURE || Continental US || Fluxgate || UCLA || 6<br />
|-<br />
| SAMBA || South America & Antarctica || Fluxgate || UCLA || 12<br />
|-<br />
| THEMIS || Continental US & Canada || Fluxgate || UCLA || 24<br />
|-<br />
| US Geological Survey || US & Territories || Fluxgate || Narod, Technical Univ of Denmark || 11<br />
|-<br />
| NJIT / AGO || Antarctica || Fluxgate || Bell Labs || 7<br />
|-<br />
| NJIT / AGO || Antarctica || Induction Coil || Tohoku University || 5<br />
|-<br />
| MICA || Antarctica || Induction Coil || UNH || 5<br />
|-<br />
| MICA || Arctic Canada || Induction Coil || UNH || 4<br />
|-<br />
| MICA || Svalbard || Induction Coil || UNH || 4<br />
|}<br />
<br />
*Some locations listed here have instruments that are not currently operating.<br />
<br />
=== Ground Magnetometer Data ===<br />
<br />
[http://supermag.jhuapl.edu/ SuperMAG]<br />
<br />
[https://www.usgs.gov/natural-hazards/geomagnetism/data-tools USGS Geomagnetism Program]<br />
<br />
[https://www.intermagnet.org/ INTERMAGNET]<br />
<br />
[http://vmo.igpp.ucla.edu/data1/SECS/Quicklook/ Spherical Elementary Currents] from James Weygand<br />
<br />
[http://themis.ssl.berkeley.edu/gmag/gmag_list.php?selyear=4000&selmonth=13&smap=on&sinfo=on&saelist=on&ae=on THEMIS]<br />
<br />
[https://cdaweb.gsfc.nasa.gov/index.html/ NASA CDAWeb]<br />
<br />
[http://mirl.unh.edu/ulf_status.html UNH Magnetic Induction Coil Array (MICA)]<br />
<br />
[http://search.iugonet.org/list.jsp IUGONET]<br />
<br />
=== Digital Object Identifiers for Ground Magnetometer Data ===<br />
<br />
Digital Object Identifiers (DOI) allow authors to cite data products just as they refer to papers. This is becoming a requirement of many journals, as it assures that the specific data used in a publication are findable and accessible. The DOI provides a permanent identifier (PID) for the data, remaining unchanged even if the data are moved to another archive. The "creators" (authors) of the data must link the DOI to a "landing page" that provides details about the data and methods for accessing them. Our group recommends that each ground magnetometer network generate DOIs for their datasets, at minimum one DOI for their original measurements (i.e., before filtering and other types of processing are performed).<br />
<br />
As a member of the [https://datacite.org DataCite organization], NASA Heliophysics (HP) can "mint" DOIs for ground magnetometer datasets. NASA HP is providing an easy means to assign DOIs to datasets using the HP Digital Resource Registry (HDRR) by providing landing pages for datasets based on their "SPASE" resource descriptions. As an example, any users of NASA's OMNI dataset can now use https://doi.org/10.48322/1shr-ht18 for the hourly dataset, and other DOIs for other sets, discoverable by a search with the Heliophysics Data Portal (HDP; https://heliophysicsdata.gsfc.nasa.gov; look for "omni" in the "observatory" entry at the left). More details for DOI initiation for resources in the HDP can be found [https://hpde.gsfc.nasa.gov/DOI_Initiative_October_2020.pdf here]. For further information, and especially to start the process of registering DOIs, contact James Weygand (jweygand@igpp.ucla.edu or jweygand@epss.ucla.edu).<br />
<br />
As noted above, a SPASE resource description is required for each magnetometer dataset to mint a DOI. Here's an example for the [https://drive.google.com/file/d/1MxEDFAa_grGuCdID9vwK9pRzkzH7FQYR/view?usp=sharing MACCS magnetometer network 5s measurements].<br />
<br />
== 2019 GEM workshop meeting ==<br />
<br />
The ground magnetometer advisory board was formed in 2016 as a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts.<br />
<br />
We invite the GEM community to attend our meeting on Monday, June 24 at 1:30 PM, where we’ll discuss updates on all the above items. Later this year, we’ll add new members to the advisory board who either operate ground magnetometers or use magnetometer data to support their scientific investigations and/or space weather monitoring efforts. If you’re interested in learning more about this opportunity, please attend this GEM meeting or contact Mike Hartinger (mdhartin@vt.edu).<br />
<br />
Monday, 24 June, 1:30 PM, Location: Santa Fe<br />
*Mike Hartinger - Updates on ground magnetometer advisory board activities<br />
*Mark Engebretson - Summary of information gathering report<br />
*Lisa Winter - NSF updates<br />
*Hyomin Kim - DRUM/DASI updates and future plans, discussion<br />
*Jesper Gjerloev - SuperMAG updates<br />
*Josh Rigler - USGS updates, updates from other magnetometer arrays<br />
<br />
== 2019 mini-GEM workshop meeting ==<br />
<br />
Sunday, 8 December, 1200-1330, Location: Oregon Room<br />
*Mike Hartinger - [https://drive.google.com/file/d/1f3nDkQU4Red2gBLe_I5z_z0LOTHRyfN8/view?usp=sharing Introduction and Overview of Advisory Board activities, updates on DOI and new instruments]<br />
*Howard Singer - [https://drive.google.com/file/d/16poHzPvIM60z9Z7E_qXHznRGL80cjRRY/view?usp=sharing How ground magnetometers are currently incorporated into forecasts at SWPC, how they could be incorporated in the future]<br />
*Jennifer Gannon - How ground magnetometers can best be used to monitor/investigate GIC, utility-grade magnetometers<br />
*Endawoke Yizengaw - Open discussion with NSF, DRUM/DASI future proposal plans<br />
*Anna Kelbert - [https://drive.google.com/open?id=1XFHxruhasIRvZ3JDGtVtExZE6d87tM0X USGS Geomagnetism Program updates]<br />
*Peter Chi - update on ULTIMA activities / international collaboration<br />
*James Weygand - [https://drive.google.com/open?id=1Uq5ArdynNUk6ymbrBAcbFU9zbzH1eD3t Spherical Elementary Currents and Mid/Low Latitude Data Availability]<br />
*Walk-ins TBD (Amy Keesee/Mike Coughlin,...)<br />
<br />
<br />
== August 2020 Virtual Discussion: Ground Magnetometer Measurements for Heliophysics Research and Space Weather Monitoring ==<br />
<br />
Friday, 7 August, 1500-1630 EDT<br />
<br />
[https://drive.google.com/file/d/1uQ18wVmQC9de6zGn8wXVmXHvkomQPP63/view?usp=sharing Meeting Summary and Community Feedback from Google Form]<br />
<br />
Discussion from this meeting and previous meetings was summarized in this [https://drive.google.com/file/d/1-lrglV9h7OneMK8XK0yjnPk3XhhMMMNg/view?usp=sharing Heliophysics 2050 white paper].<br />
<br />
Invited Speakers<br />
* Syau-Yun Hsieh – [https://drive.google.com/file/d/1nRB6Xjc8F4tyGDtFHSoH6Tr3Kxh8hnkq/view?usp=sharing SMILE mission ground-based support]<br />
* Enrico Camporeale – [https://drive.google.com/file/d/1JiQTM6I4q9TIcEYDlHSfWwM1nkwaLjNS/view?usp=sharing Long-term continuous magnetometer data for geomagnetic activity prediction using machine learning]<br />
* Slava Merkin – [https://drive.google.com/file/d/1-nALz_h5IUMtUPPZKGQh3KNHS-GxbBqx/view?usp=sharing What is required of global magnetosphere-ionosphere-thermosphere models to predict ground magnetic perturbations]<br />
<br />
Project Updates<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/15fE4UXOXYYjACtDilek9s1DDd8h9ODho/view?usp=sharing SuperMAG]<br />
* Michelle Salzano, [https://drive.google.com/file/d/12fI2yM-q_fw-4-4cN_8Nsp3oECtohjPh/view?usp=sharing MICA]<br />
* Josh Rigler, [https://drive.google.com/file/d/1aYjQcO-56TyNB0U97bobyRVsu1D05iJo/view?usp=sharing USGS] <br />
* Jennifer Gannon, [https://drive.google.com/file/d/17KkpAGoV1OwOAsi8n6x3fTF2q6xk_CNV/view?usp=sharing MagStar]<br />
* Chuck Smith, [https://drive.google.com/file/d/1VuUgOTyFrrBxuvxmdbJoVgYeyEmAUgIw/view?usp=sharing Space Weather Underground]<br />
* Endawoke Yizengaw, iMAGS<br />
* Peter Chi, [https://drive.google.com/file/d/1CX26PkNjz_8mFhrmqX14ZxE1m8eO-Rw3/view?usp=sharing SMART]<br />
* Mark Moldwin, [https://drive.google.com/file/d/1zrSgS7iImyWW7rlXWtqheU4gWOLUS3LW/view?usp=sharing New Ground Mag and TEC/GPS system]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1thUuT5pZqMjWI4xR5ytT8IvXSRpBl72c/view?usp=sharing MACCS]<br />
* Don Hampton, [https://drive.google.com/file/d/1DQyBge17GT9r7Vjvjp5LYXio9yGUkLnU/view?usp=sharing GIMA]<br />
* Hyomin Kim, AGO<br />
* Mike Hartinger, [https://drive.google.com/file/d/1OArNCvEEsFdXwi7qmz9_WNQskhcRqBGW/view?usp=sharing AALPIP]<br />
<br />
== February 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research ==<br />
<br />
Thursday, 4 February, 1100-1230 US Eastern Time<br />
<br />
This virtual meeting will begin with an invited talk from Gary Egbert on current/future applications of ground magnetometers to geophysics research, including magnetotellurics research relevant to Heliophysics/GIC. This continues a series of discussions intended to gather feedback for the upcoming Heliophysics Decadal Survey.<br />
<br />
The rest of the meeting will be for updates from SuperMAG and individual magnetometer networks, NSF announcements, and discussion of magnetometer digital object identifiers.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
[https://agu.confex.com/agu/fm20/meetingapp.cgi/Paper/685551 Link] to Gary Egbert's 2020 AGU presentation, "Modeling Diurnal Variation Magnetic Fields for Mantle Induction Studies"<br />
<br />
* 1100-1105 Mike Hartinger, [https://drive.google.com/file/d/1FQUYC_Q0F3I97RAYrOsCN_piy9cu8OcG/view?usp=sharing Introduction and Updates on Digital Object Identifiers]<br />
* 1105-1125 Gary Egbert, [https://drive.google.com/file/d/1fvp4QiW5BpPxtlmopLaPxKp-x9SUX2Wx/view?usp=sharing Current and Future Applications of Ground Magnetometers to Geophysics Research]<br />
* 1125-1135 Jennifer Gannon, [https://drive.google.com/file/d/1AL3NasABl5eDSE-Gh71-MTcR8BuG-PpH/view?usp=sharing MagStar]<br />
* 1135-1145 Josh Rigler / Anna Kelbert, USGS Updates<br />
* 1145-1155 Whitham Reeve, [https://drive.google.com/file/d/1TUetaa2wE7W_b2-h0v3q287B0h6F8LzA/view?usp=sharing SAM-III]<br />
* 1155-1205 Rob Barnes / Matt Potter, [https://drive.google.com/file/d/1xXunj9lafw2m5C3AdDBHi6ZqTPpU-Jtf/view?usp=sharing SuperMAG Updates]<br />
* 1205-1215 [https://drive.google.com/file/d/1YDZB7mhG8rZS5EqzRIax4AvCL2wmm6q7/view?usp=sharing Collaboration tools and NSF opportunities]<br />
* 1215-1230 Additional Brief Project Updates: [https://drive.google.com/file/d/1R-SetUGvFfZyA0emtZtOxZ3WbjXXF2BN/view?usp=sharing MICA], [https://drive.google.com/file/d/1Z62YCvAGkvF2lJmHLAJOG3qtlFvYs09P/view?usp=sharing MACCS], [https://drive.google.com/file/d/1THwB7Cq0K5hhPhY_3BRh9R724FwXssD-/view?usp=sharing NJIT], [https://drive.google.com/file/d/17XYtKyofyw_1uRc1T69K2l7Qxiiccyau/view?usp=sharing AALPIP]<br />
<br />
== July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey ==<br />
<br />
Thursday, 8 July, 1200-1330 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey. The discussion began with several presentations related to open magnetometer science questions and infrastructure. The rest of the meeting was for open discussion on topics for magnetometer-related white papers for the decadal survey.<br />
<br />
[https://drive.google.com/file/d/1yEqAe-CuK0XQBLiP5vsrhEAg3LhRaIui/view?usp=sharing Meeting notes]<br />
<br />
* Mike Hartinger, [https://drive.google.com/file/d/1FVolkY5xVn4DeL_3TFQmLWIpcdl6vKHF/view?usp=sharing Overview of the Meeting, NSF Opportunities]<br />
* Adam Schultz, [https://drive.google.com/file/d/1iVcUlawbmcbkhyVZLdaLp1s-_f8QSKm7/view?usp=sharing Improving Situational Awareness of ground-level EM fields]<br />
* Dan Schneider, [https://drive.google.com/file/d/1KGiHVAEQkynAkKeqYFBwV0ynrrMAetke/view?usp=sharing QuakeFinder: Induction Coil Magnetometer Array]<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/1G4MGyKsbCIdBhNU0e3hoNqeA7HP_uZsD/view?usp=sharing SuperMAG news]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1pNoWfpl8XyaQ5qtKX1nMXJrzaxX3sIkk/view?usp=sharing Unresolved issues in MPE-GIC studies]<br />
<br />
== October 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (1) ==<br />
<br />
Thursday, 19 October, 1400-1530 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July 2021. This was a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== February 2022 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (2) ==<br />
<br />
Monday, 7 February, 1600-1700 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July and October 2021. The meeting started with a [https://drive.google.com/file/d/1TAjZPnhS60InWkukMMrVQh4rxzeZo0hd/view?usp=sharing presentation] discussing upcoming meetings and other announcements related to the Decadal Survey as well as plans for an over-arching ground magnetometer white paper. The remaining time was for a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== 2022 GEM Workshop meeting ==<br />
<br />
Monday, 20 June, 1030-1200 US Hawaii Time<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2022 GEM workshop. The session will begin with an introduction to both groups followed by an invited talk by Dr. Chigomezyo Ngwira on geomagnetically induced currents and geomagnetic disturbances. The remainder of the session will be for discussion of Solar and Space Physics Decadal Survey white papers related to ground magnetometers and short magnetometer network updates.<br />
<br />
* Mike Hartinger, Overview of the US Ground Magnetometer Group<br />
* Xueling Shi, Overview of the new GEM GIC focus group<br />
* Chigomezyo Ngwira, Review of Geomagnetic Disturbances and GIC<br />
* Jesper Gjerloev, Decadal survey white paper<br />
* Mike Hartinger, Decadal survey white paper<br />
* All, Discussion of Decadal survey white papers<br />
* Magnetometer Network/SuperMAG Updates (1-slide each): Jesper Gjerloev (SuperMAG), Shane Coyle (AALPIP), Shane Coyle (GPS Rollover), Michelle Salzano (MICA-S), Hyomin Kim (HamSCI magnetometer), Hyomin Kim (Deep polar cap Antarctic network)</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=US_Ground-based_magnetometer_arrays&diff=5705US Ground-based magnetometer arrays2022-06-03T19:20:14Z<p>Mdhartin: /* 2022 GEM Workshop meeting */</p>
<hr />
<div>=== US Ground Magnetometer Board ===<br />
<br />
This wiki page and related ground magnetometer board meetings are part of a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts. For more information about the current state and future of ground magnetometer networks in support of space weather monitoring and research, see this article in [https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017SW001718 Space Weather]. <br />
<br />
''Current Ground Magnetometer Board Members:''<br />
* Peter Chi<br />
* Mark Engebretson, (former chair)<br />
* Jennifer Gannon<br />
* Jesper Gjerloev<br />
* Michael Hartinger, (current chair, mhartinger@spacescience.org)<br />
* Hyomin Kim<br />
* Gang Lu<br />
* Josh Rigler<br />
* Michelle Salzano<br />
* Howard Singer<br />
* Endawoke Yizengaw<br />
<br />
''Former Ground Magnetometer Board Members:''<br />
* Carol Finn<br />
* Efthyia Zesta<br />
<br />
=== US-Sponsored Ground-Based Magnetometer Arrays and Programs* ===<br />
<br />
{| class="wikitable" style="width: 50%; height: 4em;"<br />
|-<br />
| Array || Location || Instruments || Manufacturer || No. of Locations<br />
|-<br />
| AAL-PIP || Antarctica || Fluxgate || Lviv Centre ISR || 6<br />
|-<br />
| AAL-PIP || Antarctica || Induction Coil || UNH || 4<br />
|-<br />
| AMBER || Africa || Fluxgate || UCLA || 7<br />
|-<br />
| AMBER || South America || Fluxgate || UCLA || 2<br />
|-<br />
| AMBER || East Asia || Fluxgate || UCLA || 4<br />
|-<br />
| Falcon || Continental US || Fluxgate || UCLA || 11<br />
|-<br />
| GIMA || Alaska || Fluxgate || Narod || 9<br />
|-<br />
| Jicamarca || South America || Fluxgate || UCLA || 2<br />
|-<br />
| LISN || South America || Fluxgate || Custom/Jicamarca || 6<br />
|-<br />
| MACCS || Arctic Canada || Fluxgate || Narod || 8<br />
|-<br />
| McMAC || Continental US & Mexico || Fluxgate || UCLA || 9<br />
|-<br />
| MEASURE || Continental US || Fluxgate || UCLA || 6<br />
|-<br />
| SAMBA || South America & Antarctica || Fluxgate || UCLA || 12<br />
|-<br />
| THEMIS || Continental US & Canada || Fluxgate || UCLA || 24<br />
|-<br />
| US Geological Survey || US & Territories || Fluxgate || Narod, Technical Univ of Denmark || 11<br />
|-<br />
| NJIT / AGO || Antarctica || Fluxgate || Bell Labs || 7<br />
|-<br />
| NJIT / AGO || Antarctica || Induction Coil || Tohoku University || 5<br />
|-<br />
| MICA || Antarctica || Induction Coil || UNH || 5<br />
|-<br />
| MICA || Arctic Canada || Induction Coil || UNH || 4<br />
|-<br />
| MICA || Svalbard || Induction Coil || UNH || 4<br />
|}<br />
<br />
*Some locations listed here have instruments that are not currently operating.<br />
<br />
=== Ground Magnetometer Data ===<br />
<br />
[http://supermag.jhuapl.edu/ SuperMAG]<br />
<br />
[https://www.usgs.gov/natural-hazards/geomagnetism/data-tools USGS Geomagnetism Program]<br />
<br />
[https://www.intermagnet.org/ INTERMAGNET]<br />
<br />
[http://vmo.igpp.ucla.edu/data1/SECS/Quicklook/ Spherical Elementary Currents] from James Weygand<br />
<br />
[http://themis.ssl.berkeley.edu/gmag/gmag_list.php?selyear=4000&selmonth=13&smap=on&sinfo=on&saelist=on&ae=on THEMIS]<br />
<br />
[https://cdaweb.gsfc.nasa.gov/index.html/ NASA CDAWeb]<br />
<br />
[http://mirl.unh.edu/ulf_status.html UNH Magnetic Induction Coil Array (MICA)]<br />
<br />
[http://search.iugonet.org/list.jsp IUGONET]<br />
<br />
=== Digital Object Identifiers for Ground Magnetometer Data ===<br />
<br />
Digital Object Identifiers (DOI) allow authors to cite data products just as they refer to papers. This is becoming a requirement of many journals, as it assures that the specific data used in a publication are findable and accessible. The DOI provides a permanent identifier (PID) for the data, remaining unchanged even if the data are moved to another archive. The "creators" (authors) of the data must link the DOI to a "landing page" that provides details about the data and methods for accessing them. Our group recommends that each ground magnetometer network generate DOIs for their datasets, at minimum one DOI for their original measurements (i.e., before filtering and other types of processing are performed).<br />
<br />
As a member of the [https://datacite.org DataCite organization], NASA Heliophysics (HP) can "mint" DOIs for ground magnetometer datasets. NASA HP is providing an easy means to assign DOIs to datasets using the HP Digital Resource Registry (HDRR) by providing landing pages for datasets based on their "SPASE" resource descriptions. As an example, any users of NASA's OMNI dataset can now use https://doi.org/10.48322/1shr-ht18 for the hourly dataset, and other DOIs for other sets, discoverable by a search with the Heliophysics Data Portal (HDP; https://heliophysicsdata.gsfc.nasa.gov; look for "omni" in the "observatory" entry at the left). More details for DOI initiation for resources in the HDP can be found [https://hpde.gsfc.nasa.gov/DOI_Initiative_October_2020.pdf here]. For further information, and especially to start the process of registering DOIs, contact James Weygand (jweygand@igpp.ucla.edu or jweygand@epss.ucla.edu).<br />
<br />
As noted above, a SPASE resource description is required for each magnetometer dataset to mint a DOI. Here's an example for the [https://drive.google.com/file/d/1MxEDFAa_grGuCdID9vwK9pRzkzH7FQYR/view?usp=sharing MACCS magnetometer network 5s measurements].<br />
<br />
== 2019 GEM workshop meeting ==<br />
<br />
The ground magnetometer advisory board was formed in 2016 as a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts.<br />
<br />
We invite the GEM community to attend our meeting on Monday, June 24 at 1:30 PM, where we’ll discuss updates on all the above items. Later this year, we’ll add new members to the advisory board who either operate ground magnetometers or use magnetometer data to support their scientific investigations and/or space weather monitoring efforts. If you’re interested in learning more about this opportunity, please attend this GEM meeting or contact Mike Hartinger (mdhartin@vt.edu).<br />
<br />
Monday, 24 June, 1:30 PM, Location: Santa Fe<br />
*Mike Hartinger - Updates on ground magnetometer advisory board activities<br />
*Mark Engebretson - Summary of information gathering report<br />
*Lisa Winter - NSF updates<br />
*Hyomin Kim - DRUM/DASI updates and future plans, discussion<br />
*Jesper Gjerloev - SuperMAG updates<br />
*Josh Rigler - USGS updates, updates from other magnetometer arrays<br />
<br />
== 2019 mini-GEM workshop meeting ==<br />
<br />
Sunday, 8 December, 1200-1330, Location: Oregon Room<br />
*Mike Hartinger - [https://drive.google.com/file/d/1f3nDkQU4Red2gBLe_I5z_z0LOTHRyfN8/view?usp=sharing Introduction and Overview of Advisory Board activities, updates on DOI and new instruments]<br />
*Howard Singer - [https://drive.google.com/file/d/16poHzPvIM60z9Z7E_qXHznRGL80cjRRY/view?usp=sharing How ground magnetometers are currently incorporated into forecasts at SWPC, how they could be incorporated in the future]<br />
*Jennifer Gannon - How ground magnetometers can best be used to monitor/investigate GIC, utility-grade magnetometers<br />
*Endawoke Yizengaw - Open discussion with NSF, DRUM/DASI future proposal plans<br />
*Anna Kelbert - [https://drive.google.com/open?id=1XFHxruhasIRvZ3JDGtVtExZE6d87tM0X USGS Geomagnetism Program updates]<br />
*Peter Chi - update on ULTIMA activities / international collaboration<br />
*James Weygand - [https://drive.google.com/open?id=1Uq5ArdynNUk6ymbrBAcbFU9zbzH1eD3t Spherical Elementary Currents and Mid/Low Latitude Data Availability]<br />
*Walk-ins TBD (Amy Keesee/Mike Coughlin,...)<br />
<br />
<br />
== August 2020 Virtual Discussion: Ground Magnetometer Measurements for Heliophysics Research and Space Weather Monitoring ==<br />
<br />
Friday, 7 August, 1500-1630 EDT<br />
<br />
[https://drive.google.com/file/d/1uQ18wVmQC9de6zGn8wXVmXHvkomQPP63/view?usp=sharing Meeting Summary and Community Feedback from Google Form]<br />
<br />
Discussion from this meeting and previous meetings was summarized in this [https://drive.google.com/file/d/1-lrglV9h7OneMK8XK0yjnPk3XhhMMMNg/view?usp=sharing Heliophysics 2050 white paper].<br />
<br />
Invited Speakers<br />
* Syau-Yun Hsieh – [https://drive.google.com/file/d/1nRB6Xjc8F4tyGDtFHSoH6Tr3Kxh8hnkq/view?usp=sharing SMILE mission ground-based support]<br />
* Enrico Camporeale – [https://drive.google.com/file/d/1JiQTM6I4q9TIcEYDlHSfWwM1nkwaLjNS/view?usp=sharing Long-term continuous magnetometer data for geomagnetic activity prediction using machine learning]<br />
* Slava Merkin – [https://drive.google.com/file/d/1-nALz_h5IUMtUPPZKGQh3KNHS-GxbBqx/view?usp=sharing What is required of global magnetosphere-ionosphere-thermosphere models to predict ground magnetic perturbations]<br />
<br />
Project Updates<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/15fE4UXOXYYjACtDilek9s1DDd8h9ODho/view?usp=sharing SuperMAG]<br />
* Michelle Salzano, [https://drive.google.com/file/d/12fI2yM-q_fw-4-4cN_8Nsp3oECtohjPh/view?usp=sharing MICA]<br />
* Josh Rigler, [https://drive.google.com/file/d/1aYjQcO-56TyNB0U97bobyRVsu1D05iJo/view?usp=sharing USGS] <br />
* Jennifer Gannon, [https://drive.google.com/file/d/17KkpAGoV1OwOAsi8n6x3fTF2q6xk_CNV/view?usp=sharing MagStar]<br />
* Chuck Smith, [https://drive.google.com/file/d/1VuUgOTyFrrBxuvxmdbJoVgYeyEmAUgIw/view?usp=sharing Space Weather Underground]<br />
* Endawoke Yizengaw, iMAGS<br />
* Peter Chi, [https://drive.google.com/file/d/1CX26PkNjz_8mFhrmqX14ZxE1m8eO-Rw3/view?usp=sharing SMART]<br />
* Mark Moldwin, [https://drive.google.com/file/d/1zrSgS7iImyWW7rlXWtqheU4gWOLUS3LW/view?usp=sharing New Ground Mag and TEC/GPS system]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1thUuT5pZqMjWI4xR5ytT8IvXSRpBl72c/view?usp=sharing MACCS]<br />
* Don Hampton, [https://drive.google.com/file/d/1DQyBge17GT9r7Vjvjp5LYXio9yGUkLnU/view?usp=sharing GIMA]<br />
* Hyomin Kim, AGO<br />
* Mike Hartinger, [https://drive.google.com/file/d/1OArNCvEEsFdXwi7qmz9_WNQskhcRqBGW/view?usp=sharing AALPIP]<br />
<br />
== February 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research ==<br />
<br />
Thursday, 4 February, 1100-1230 US Eastern Time<br />
<br />
This virtual meeting will begin with an invited talk from Gary Egbert on current/future applications of ground magnetometers to geophysics research, including magnetotellurics research relevant to Heliophysics/GIC. This continues a series of discussions intended to gather feedback for the upcoming Heliophysics Decadal Survey.<br />
<br />
The rest of the meeting will be for updates from SuperMAG and individual magnetometer networks, NSF announcements, and discussion of magnetometer digital object identifiers.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
[https://agu.confex.com/agu/fm20/meetingapp.cgi/Paper/685551 Link] to Gary Egbert's 2020 AGU presentation, "Modeling Diurnal Variation Magnetic Fields for Mantle Induction Studies"<br />
<br />
* 1100-1105 Mike Hartinger, [https://drive.google.com/file/d/1FQUYC_Q0F3I97RAYrOsCN_piy9cu8OcG/view?usp=sharing Introduction and Updates on Digital Object Identifiers]<br />
* 1105-1125 Gary Egbert, [https://drive.google.com/file/d/1fvp4QiW5BpPxtlmopLaPxKp-x9SUX2Wx/view?usp=sharing Current and Future Applications of Ground Magnetometers to Geophysics Research]<br />
* 1125-1135 Jennifer Gannon, [https://drive.google.com/file/d/1AL3NasABl5eDSE-Gh71-MTcR8BuG-PpH/view?usp=sharing MagStar]<br />
* 1135-1145 Josh Rigler / Anna Kelbert, USGS Updates<br />
* 1145-1155 Whitham Reeve, [https://drive.google.com/file/d/1TUetaa2wE7W_b2-h0v3q287B0h6F8LzA/view?usp=sharing SAM-III]<br />
* 1155-1205 Rob Barnes / Matt Potter, [https://drive.google.com/file/d/1xXunj9lafw2m5C3AdDBHi6ZqTPpU-Jtf/view?usp=sharing SuperMAG Updates]<br />
* 1205-1215 [https://drive.google.com/file/d/1YDZB7mhG8rZS5EqzRIax4AvCL2wmm6q7/view?usp=sharing Collaboration tools and NSF opportunities]<br />
* 1215-1230 Additional Brief Project Updates: [https://drive.google.com/file/d/1R-SetUGvFfZyA0emtZtOxZ3WbjXXF2BN/view?usp=sharing MICA], [https://drive.google.com/file/d/1Z62YCvAGkvF2lJmHLAJOG3qtlFvYs09P/view?usp=sharing MACCS], [https://drive.google.com/file/d/1THwB7Cq0K5hhPhY_3BRh9R724FwXssD-/view?usp=sharing NJIT], [https://drive.google.com/file/d/17XYtKyofyw_1uRc1T69K2l7Qxiiccyau/view?usp=sharing AALPIP]<br />
<br />
== July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey ==<br />
<br />
Thursday, 8 July, 1200-1330 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey. The discussion began with several presentations related to open magnetometer science questions and infrastructure. The rest of the meeting was for open discussion on topics for magnetometer-related white papers for the decadal survey.<br />
<br />
[https://drive.google.com/file/d/1yEqAe-CuK0XQBLiP5vsrhEAg3LhRaIui/view?usp=sharing Meeting notes]<br />
<br />
* Mike Hartinger, [https://drive.google.com/file/d/1FVolkY5xVn4DeL_3TFQmLWIpcdl6vKHF/view?usp=sharing Overview of the Meeting, NSF Opportunities]<br />
* Adam Schultz, [https://drive.google.com/file/d/1iVcUlawbmcbkhyVZLdaLp1s-_f8QSKm7/view?usp=sharing Improving Situational Awareness of ground-level EM fields]<br />
* Dan Schneider, [https://drive.google.com/file/d/1KGiHVAEQkynAkKeqYFBwV0ynrrMAetke/view?usp=sharing QuakeFinder: Induction Coil Magnetometer Array]<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/1G4MGyKsbCIdBhNU0e3hoNqeA7HP_uZsD/view?usp=sharing SuperMAG news]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1pNoWfpl8XyaQ5qtKX1nMXJrzaxX3sIkk/view?usp=sharing Unresolved issues in MPE-GIC studies]<br />
<br />
== October 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (1) ==<br />
<br />
Thursday, 19 October, 1400-1530 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July 2021. This was a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== February 2022 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (2) ==<br />
<br />
Monday, 7 February, 1600-1700 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July and October 2021. The meeting started with a [https://drive.google.com/file/d/1TAjZPnhS60InWkukMMrVQh4rxzeZo0hd/view?usp=sharing presentation] discussing upcoming meetings and other announcements related to the Decadal Survey as well as plans for an over-arching ground magnetometer white paper. The remaining time was for a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== 2022 GEM Workshop meeting ==<br />
<br />
Monday, 20 June, 1030-1200 US Hawaii Time<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2022 GEM workshop. The session will begin with an introduction to both groups followed by an invited talk by Dr. Chigomezyo Ngwira on geomagnetically induced currents and geomagnetic disturbances. The remainder of the session will be for discussion of Solar and Space Physics Decadal Survey white papers related to ground magnetometers and short magnetometer network updates.<br />
<br />
* Mike Hartinger, Overview of the US Ground Magnetometer Group<br />
* Xueling Shi, Overview of the new GEM GIC focus group<br />
* Chigomezyo Ngwira, Review of Geomagnetic Disturbances and GIC<br />
* Jesper Gjerloev, Decadal survey white paper<br />
* Mike Hartinger, Decadal survey white paper<br />
* All, Discussion of Decadal survey white papers<br />
* Magnetometer Network/SuperMAG Updates (1-slide each): Jesper Gjerloev (SuperMAG), Shane Coyle (AALPIP), Shane Coyle (GPS Rollover), Michelle Salzano (MICA-S)</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=US_Ground-based_magnetometer_arrays&diff=5702US Ground-based magnetometer arrays2022-06-03T15:10:46Z<p>Mdhartin: /* 2022 GEM Workshop meeting */</p>
<hr />
<div>=== US Ground Magnetometer Board ===<br />
<br />
This wiki page and related ground magnetometer board meetings are part of a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts. For more information about the current state and future of ground magnetometer networks in support of space weather monitoring and research, see this article in [https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017SW001718 Space Weather]. <br />
<br />
''Current Ground Magnetometer Board Members:''<br />
* Peter Chi<br />
* Mark Engebretson, (former chair)<br />
* Jennifer Gannon<br />
* Jesper Gjerloev<br />
* Michael Hartinger, (current chair, mhartinger@spacescience.org)<br />
* Hyomin Kim<br />
* Gang Lu<br />
* Josh Rigler<br />
* Michelle Salzano<br />
* Howard Singer<br />
* Endawoke Yizengaw<br />
<br />
''Former Ground Magnetometer Board Members:''<br />
* Carol Finn<br />
* Efthyia Zesta<br />
<br />
=== US-Sponsored Ground-Based Magnetometer Arrays and Programs* ===<br />
<br />
{| class="wikitable" style="width: 50%; height: 4em;"<br />
|-<br />
| Array || Location || Instruments || Manufacturer || No. of Locations<br />
|-<br />
| AAL-PIP || Antarctica || Fluxgate || Lviv Centre ISR || 6<br />
|-<br />
| AAL-PIP || Antarctica || Induction Coil || UNH || 4<br />
|-<br />
| AMBER || Africa || Fluxgate || UCLA || 7<br />
|-<br />
| AMBER || South America || Fluxgate || UCLA || 2<br />
|-<br />
| AMBER || East Asia || Fluxgate || UCLA || 4<br />
|-<br />
| Falcon || Continental US || Fluxgate || UCLA || 11<br />
|-<br />
| GIMA || Alaska || Fluxgate || Narod || 9<br />
|-<br />
| Jicamarca || South America || Fluxgate || UCLA || 2<br />
|-<br />
| LISN || South America || Fluxgate || Custom/Jicamarca || 6<br />
|-<br />
| MACCS || Arctic Canada || Fluxgate || Narod || 8<br />
|-<br />
| McMAC || Continental US & Mexico || Fluxgate || UCLA || 9<br />
|-<br />
| MEASURE || Continental US || Fluxgate || UCLA || 6<br />
|-<br />
| SAMBA || South America & Antarctica || Fluxgate || UCLA || 12<br />
|-<br />
| THEMIS || Continental US & Canada || Fluxgate || UCLA || 24<br />
|-<br />
| US Geological Survey || US & Territories || Fluxgate || Narod, Technical Univ of Denmark || 11<br />
|-<br />
| NJIT / AGO || Antarctica || Fluxgate || Bell Labs || 7<br />
|-<br />
| NJIT / AGO || Antarctica || Induction Coil || Tohoku University || 5<br />
|-<br />
| MICA || Antarctica || Induction Coil || UNH || 5<br />
|-<br />
| MICA || Arctic Canada || Induction Coil || UNH || 4<br />
|-<br />
| MICA || Svalbard || Induction Coil || UNH || 4<br />
|}<br />
<br />
*Some locations listed here have instruments that are not currently operating.<br />
<br />
=== Ground Magnetometer Data ===<br />
<br />
[http://supermag.jhuapl.edu/ SuperMAG]<br />
<br />
[https://www.usgs.gov/natural-hazards/geomagnetism/data-tools USGS Geomagnetism Program]<br />
<br />
[https://www.intermagnet.org/ INTERMAGNET]<br />
<br />
[http://vmo.igpp.ucla.edu/data1/SECS/Quicklook/ Spherical Elementary Currents] from James Weygand<br />
<br />
[http://themis.ssl.berkeley.edu/gmag/gmag_list.php?selyear=4000&selmonth=13&smap=on&sinfo=on&saelist=on&ae=on THEMIS]<br />
<br />
[https://cdaweb.gsfc.nasa.gov/index.html/ NASA CDAWeb]<br />
<br />
[http://mirl.unh.edu/ulf_status.html UNH Magnetic Induction Coil Array (MICA)]<br />
<br />
[http://search.iugonet.org/list.jsp IUGONET]<br />
<br />
=== Digital Object Identifiers for Ground Magnetometer Data ===<br />
<br />
Digital Object Identifiers (DOI) allow authors to cite data products just as they refer to papers. This is becoming a requirement of many journals, as it assures that the specific data used in a publication are findable and accessible. The DOI provides a permanent identifier (PID) for the data, remaining unchanged even if the data are moved to another archive. The "creators" (authors) of the data must link the DOI to a "landing page" that provides details about the data and methods for accessing them. Our group recommends that each ground magnetometer network generate DOIs for their datasets, at minimum one DOI for their original measurements (i.e., before filtering and other types of processing are performed).<br />
<br />
As a member of the [https://datacite.org DataCite organization], NASA Heliophysics (HP) can "mint" DOIs for ground magnetometer datasets. NASA HP is providing an easy means to assign DOIs to datasets using the HP Digital Resource Registry (HDRR) by providing landing pages for datasets based on their "SPASE" resource descriptions. As an example, any users of NASA's OMNI dataset can now use https://doi.org/10.48322/1shr-ht18 for the hourly dataset, and other DOIs for other sets, discoverable by a search with the Heliophysics Data Portal (HDP; https://heliophysicsdata.gsfc.nasa.gov; look for "omni" in the "observatory" entry at the left). More details for DOI initiation for resources in the HDP can be found [https://hpde.gsfc.nasa.gov/DOI_Initiative_October_2020.pdf here]. For further information, and especially to start the process of registering DOIs, contact James Weygand (jweygand@igpp.ucla.edu or jweygand@epss.ucla.edu).<br />
<br />
As noted above, a SPASE resource description is required for each magnetometer dataset to mint a DOI. Here's an example for the [https://drive.google.com/file/d/1MxEDFAa_grGuCdID9vwK9pRzkzH7FQYR/view?usp=sharing MACCS magnetometer network 5s measurements].<br />
<br />
== 2019 GEM workshop meeting ==<br />
<br />
The ground magnetometer advisory board was formed in 2016 as a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts.<br />
<br />
We invite the GEM community to attend our meeting on Monday, June 24 at 1:30 PM, where we’ll discuss updates on all the above items. Later this year, we’ll add new members to the advisory board who either operate ground magnetometers or use magnetometer data to support their scientific investigations and/or space weather monitoring efforts. If you’re interested in learning more about this opportunity, please attend this GEM meeting or contact Mike Hartinger (mdhartin@vt.edu).<br />
<br />
Monday, 24 June, 1:30 PM, Location: Santa Fe<br />
*Mike Hartinger - Updates on ground magnetometer advisory board activities<br />
*Mark Engebretson - Summary of information gathering report<br />
*Lisa Winter - NSF updates<br />
*Hyomin Kim - DRUM/DASI updates and future plans, discussion<br />
*Jesper Gjerloev - SuperMAG updates<br />
*Josh Rigler - USGS updates, updates from other magnetometer arrays<br />
<br />
== 2019 mini-GEM workshop meeting ==<br />
<br />
Sunday, 8 December, 1200-1330, Location: Oregon Room<br />
*Mike Hartinger - [https://drive.google.com/file/d/1f3nDkQU4Red2gBLe_I5z_z0LOTHRyfN8/view?usp=sharing Introduction and Overview of Advisory Board activities, updates on DOI and new instruments]<br />
*Howard Singer - [https://drive.google.com/file/d/16poHzPvIM60z9Z7E_qXHznRGL80cjRRY/view?usp=sharing How ground magnetometers are currently incorporated into forecasts at SWPC, how they could be incorporated in the future]<br />
*Jennifer Gannon - How ground magnetometers can best be used to monitor/investigate GIC, utility-grade magnetometers<br />
*Endawoke Yizengaw - Open discussion with NSF, DRUM/DASI future proposal plans<br />
*Anna Kelbert - [https://drive.google.com/open?id=1XFHxruhasIRvZ3JDGtVtExZE6d87tM0X USGS Geomagnetism Program updates]<br />
*Peter Chi - update on ULTIMA activities / international collaboration<br />
*James Weygand - [https://drive.google.com/open?id=1Uq5ArdynNUk6ymbrBAcbFU9zbzH1eD3t Spherical Elementary Currents and Mid/Low Latitude Data Availability]<br />
*Walk-ins TBD (Amy Keesee/Mike Coughlin,...)<br />
<br />
<br />
== August 2020 Virtual Discussion: Ground Magnetometer Measurements for Heliophysics Research and Space Weather Monitoring ==<br />
<br />
Friday, 7 August, 1500-1630 EDT<br />
<br />
[https://drive.google.com/file/d/1uQ18wVmQC9de6zGn8wXVmXHvkomQPP63/view?usp=sharing Meeting Summary and Community Feedback from Google Form]<br />
<br />
Discussion from this meeting and previous meetings was summarized in this [https://drive.google.com/file/d/1-lrglV9h7OneMK8XK0yjnPk3XhhMMMNg/view?usp=sharing Heliophysics 2050 white paper].<br />
<br />
Invited Speakers<br />
* Syau-Yun Hsieh – [https://drive.google.com/file/d/1nRB6Xjc8F4tyGDtFHSoH6Tr3Kxh8hnkq/view?usp=sharing SMILE mission ground-based support]<br />
* Enrico Camporeale – [https://drive.google.com/file/d/1JiQTM6I4q9TIcEYDlHSfWwM1nkwaLjNS/view?usp=sharing Long-term continuous magnetometer data for geomagnetic activity prediction using machine learning]<br />
* Slava Merkin – [https://drive.google.com/file/d/1-nALz_h5IUMtUPPZKGQh3KNHS-GxbBqx/view?usp=sharing What is required of global magnetosphere-ionosphere-thermosphere models to predict ground magnetic perturbations]<br />
<br />
Project Updates<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/15fE4UXOXYYjACtDilek9s1DDd8h9ODho/view?usp=sharing SuperMAG]<br />
* Michelle Salzano, [https://drive.google.com/file/d/12fI2yM-q_fw-4-4cN_8Nsp3oECtohjPh/view?usp=sharing MICA]<br />
* Josh Rigler, [https://drive.google.com/file/d/1aYjQcO-56TyNB0U97bobyRVsu1D05iJo/view?usp=sharing USGS] <br />
* Jennifer Gannon, [https://drive.google.com/file/d/17KkpAGoV1OwOAsi8n6x3fTF2q6xk_CNV/view?usp=sharing MagStar]<br />
* Chuck Smith, [https://drive.google.com/file/d/1VuUgOTyFrrBxuvxmdbJoVgYeyEmAUgIw/view?usp=sharing Space Weather Underground]<br />
* Endawoke Yizengaw, iMAGS<br />
* Peter Chi, [https://drive.google.com/file/d/1CX26PkNjz_8mFhrmqX14ZxE1m8eO-Rw3/view?usp=sharing SMART]<br />
* Mark Moldwin, [https://drive.google.com/file/d/1zrSgS7iImyWW7rlXWtqheU4gWOLUS3LW/view?usp=sharing New Ground Mag and TEC/GPS system]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1thUuT5pZqMjWI4xR5ytT8IvXSRpBl72c/view?usp=sharing MACCS]<br />
* Don Hampton, [https://drive.google.com/file/d/1DQyBge17GT9r7Vjvjp5LYXio9yGUkLnU/view?usp=sharing GIMA]<br />
* Hyomin Kim, AGO<br />
* Mike Hartinger, [https://drive.google.com/file/d/1OArNCvEEsFdXwi7qmz9_WNQskhcRqBGW/view?usp=sharing AALPIP]<br />
<br />
== February 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research ==<br />
<br />
Thursday, 4 February, 1100-1230 US Eastern Time<br />
<br />
This virtual meeting will begin with an invited talk from Gary Egbert on current/future applications of ground magnetometers to geophysics research, including magnetotellurics research relevant to Heliophysics/GIC. This continues a series of discussions intended to gather feedback for the upcoming Heliophysics Decadal Survey.<br />
<br />
The rest of the meeting will be for updates from SuperMAG and individual magnetometer networks, NSF announcements, and discussion of magnetometer digital object identifiers.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
[https://agu.confex.com/agu/fm20/meetingapp.cgi/Paper/685551 Link] to Gary Egbert's 2020 AGU presentation, "Modeling Diurnal Variation Magnetic Fields for Mantle Induction Studies"<br />
<br />
* 1100-1105 Mike Hartinger, [https://drive.google.com/file/d/1FQUYC_Q0F3I97RAYrOsCN_piy9cu8OcG/view?usp=sharing Introduction and Updates on Digital Object Identifiers]<br />
* 1105-1125 Gary Egbert, [https://drive.google.com/file/d/1fvp4QiW5BpPxtlmopLaPxKp-x9SUX2Wx/view?usp=sharing Current and Future Applications of Ground Magnetometers to Geophysics Research]<br />
* 1125-1135 Jennifer Gannon, [https://drive.google.com/file/d/1AL3NasABl5eDSE-Gh71-MTcR8BuG-PpH/view?usp=sharing MagStar]<br />
* 1135-1145 Josh Rigler / Anna Kelbert, USGS Updates<br />
* 1145-1155 Whitham Reeve, [https://drive.google.com/file/d/1TUetaa2wE7W_b2-h0v3q287B0h6F8LzA/view?usp=sharing SAM-III]<br />
* 1155-1205 Rob Barnes / Matt Potter, [https://drive.google.com/file/d/1xXunj9lafw2m5C3AdDBHi6ZqTPpU-Jtf/view?usp=sharing SuperMAG Updates]<br />
* 1205-1215 [https://drive.google.com/file/d/1YDZB7mhG8rZS5EqzRIax4AvCL2wmm6q7/view?usp=sharing Collaboration tools and NSF opportunities]<br />
* 1215-1230 Additional Brief Project Updates: [https://drive.google.com/file/d/1R-SetUGvFfZyA0emtZtOxZ3WbjXXF2BN/view?usp=sharing MICA], [https://drive.google.com/file/d/1Z62YCvAGkvF2lJmHLAJOG3qtlFvYs09P/view?usp=sharing MACCS], [https://drive.google.com/file/d/1THwB7Cq0K5hhPhY_3BRh9R724FwXssD-/view?usp=sharing NJIT], [https://drive.google.com/file/d/17XYtKyofyw_1uRc1T69K2l7Qxiiccyau/view?usp=sharing AALPIP]<br />
<br />
== July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey ==<br />
<br />
Thursday, 8 July, 1200-1330 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey. The discussion began with several presentations related to open magnetometer science questions and infrastructure. The rest of the meeting was for open discussion on topics for magnetometer-related white papers for the decadal survey.<br />
<br />
[https://drive.google.com/file/d/1yEqAe-CuK0XQBLiP5vsrhEAg3LhRaIui/view?usp=sharing Meeting notes]<br />
<br />
* Mike Hartinger, [https://drive.google.com/file/d/1FVolkY5xVn4DeL_3TFQmLWIpcdl6vKHF/view?usp=sharing Overview of the Meeting, NSF Opportunities]<br />
* Adam Schultz, [https://drive.google.com/file/d/1iVcUlawbmcbkhyVZLdaLp1s-_f8QSKm7/view?usp=sharing Improving Situational Awareness of ground-level EM fields]<br />
* Dan Schneider, [https://drive.google.com/file/d/1KGiHVAEQkynAkKeqYFBwV0ynrrMAetke/view?usp=sharing QuakeFinder: Induction Coil Magnetometer Array]<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/1G4MGyKsbCIdBhNU0e3hoNqeA7HP_uZsD/view?usp=sharing SuperMAG news]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1pNoWfpl8XyaQ5qtKX1nMXJrzaxX3sIkk/view?usp=sharing Unresolved issues in MPE-GIC studies]<br />
<br />
== October 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (1) ==<br />
<br />
Thursday, 19 October, 1400-1530 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July 2021. This was a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== February 2022 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (2) ==<br />
<br />
Monday, 7 February, 1600-1700 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July and October 2021. The meeting started with a [https://drive.google.com/file/d/1TAjZPnhS60InWkukMMrVQh4rxzeZo0hd/view?usp=sharing presentation] discussing upcoming meetings and other announcements related to the Decadal Survey as well as plans for an over-arching ground magnetometer white paper. The remaining time was for a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== 2022 GEM Workshop meeting ==<br />
<br />
Monday, 20 June, 1030-1200 US Hawaii Time<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2022 GEM workshop. The session will begin with an introduction to both groups followed by an invited talk by Dr. Chigomezyo Ngwira on geomagnetically induced currents and geomagnetic disturbances. The remainder of the session will be for discussion of Solar and Space Physics Decadal Survey white papers related to ground magnetometers and short magnetometer network updates.<br />
<br />
* Mike Hartinger, Overview of the US Ground Magnetometer Group<br />
* Xueling Shi, Overview of the new GEM GIC focus group<br />
* Chigomezyo Ngwira, Review of Geomagnetic Disturbances and GIC<br />
* Jesper Gjerloev, Decadal survey white paper<br />
* Mike Hartinger, Decadal survey white paper<br />
* All, Discussion of Decadal survey white papers<br />
* Magnetometer Network/SuperMAG Updates (1-slide each): Jesper Gjerloev (SuperMAG), Shane Coyle (AALPIP), Shane Coyle (GPS Rollover)</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=US_Ground-based_magnetometer_arrays&diff=5701US Ground-based magnetometer arrays2022-06-03T15:02:03Z<p>Mdhartin: </p>
<hr />
<div>=== US Ground Magnetometer Board ===<br />
<br />
This wiki page and related ground magnetometer board meetings are part of a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts. For more information about the current state and future of ground magnetometer networks in support of space weather monitoring and research, see this article in [https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017SW001718 Space Weather]. <br />
<br />
''Current Ground Magnetometer Board Members:''<br />
* Peter Chi<br />
* Mark Engebretson, (former chair)<br />
* Jennifer Gannon<br />
* Jesper Gjerloev<br />
* Michael Hartinger, (current chair, mhartinger@spacescience.org)<br />
* Hyomin Kim<br />
* Gang Lu<br />
* Josh Rigler<br />
* Michelle Salzano<br />
* Howard Singer<br />
* Endawoke Yizengaw<br />
<br />
''Former Ground Magnetometer Board Members:''<br />
* Carol Finn<br />
* Efthyia Zesta<br />
<br />
=== US-Sponsored Ground-Based Magnetometer Arrays and Programs* ===<br />
<br />
{| class="wikitable" style="width: 50%; height: 4em;"<br />
|-<br />
| Array || Location || Instruments || Manufacturer || No. of Locations<br />
|-<br />
| AAL-PIP || Antarctica || Fluxgate || Lviv Centre ISR || 6<br />
|-<br />
| AAL-PIP || Antarctica || Induction Coil || UNH || 4<br />
|-<br />
| AMBER || Africa || Fluxgate || UCLA || 7<br />
|-<br />
| AMBER || South America || Fluxgate || UCLA || 2<br />
|-<br />
| AMBER || East Asia || Fluxgate || UCLA || 4<br />
|-<br />
| Falcon || Continental US || Fluxgate || UCLA || 11<br />
|-<br />
| GIMA || Alaska || Fluxgate || Narod || 9<br />
|-<br />
| Jicamarca || South America || Fluxgate || UCLA || 2<br />
|-<br />
| LISN || South America || Fluxgate || Custom/Jicamarca || 6<br />
|-<br />
| MACCS || Arctic Canada || Fluxgate || Narod || 8<br />
|-<br />
| McMAC || Continental US & Mexico || Fluxgate || UCLA || 9<br />
|-<br />
| MEASURE || Continental US || Fluxgate || UCLA || 6<br />
|-<br />
| SAMBA || South America & Antarctica || Fluxgate || UCLA || 12<br />
|-<br />
| THEMIS || Continental US & Canada || Fluxgate || UCLA || 24<br />
|-<br />
| US Geological Survey || US & Territories || Fluxgate || Narod, Technical Univ of Denmark || 11<br />
|-<br />
| NJIT / AGO || Antarctica || Fluxgate || Bell Labs || 7<br />
|-<br />
| NJIT / AGO || Antarctica || Induction Coil || Tohoku University || 5<br />
|-<br />
| MICA || Antarctica || Induction Coil || UNH || 5<br />
|-<br />
| MICA || Arctic Canada || Induction Coil || UNH || 4<br />
|-<br />
| MICA || Svalbard || Induction Coil || UNH || 4<br />
|}<br />
<br />
*Some locations listed here have instruments that are not currently operating.<br />
<br />
=== Ground Magnetometer Data ===<br />
<br />
[http://supermag.jhuapl.edu/ SuperMAG]<br />
<br />
[https://www.usgs.gov/natural-hazards/geomagnetism/data-tools USGS Geomagnetism Program]<br />
<br />
[https://www.intermagnet.org/ INTERMAGNET]<br />
<br />
[http://vmo.igpp.ucla.edu/data1/SECS/Quicklook/ Spherical Elementary Currents] from James Weygand<br />
<br />
[http://themis.ssl.berkeley.edu/gmag/gmag_list.php?selyear=4000&selmonth=13&smap=on&sinfo=on&saelist=on&ae=on THEMIS]<br />
<br />
[https://cdaweb.gsfc.nasa.gov/index.html/ NASA CDAWeb]<br />
<br />
[http://mirl.unh.edu/ulf_status.html UNH Magnetic Induction Coil Array (MICA)]<br />
<br />
[http://search.iugonet.org/list.jsp IUGONET]<br />
<br />
=== Digital Object Identifiers for Ground Magnetometer Data ===<br />
<br />
Digital Object Identifiers (DOI) allow authors to cite data products just as they refer to papers. This is becoming a requirement of many journals, as it assures that the specific data used in a publication are findable and accessible. The DOI provides a permanent identifier (PID) for the data, remaining unchanged even if the data are moved to another archive. The "creators" (authors) of the data must link the DOI to a "landing page" that provides details about the data and methods for accessing them. Our group recommends that each ground magnetometer network generate DOIs for their datasets, at minimum one DOI for their original measurements (i.e., before filtering and other types of processing are performed).<br />
<br />
As a member of the [https://datacite.org DataCite organization], NASA Heliophysics (HP) can "mint" DOIs for ground magnetometer datasets. NASA HP is providing an easy means to assign DOIs to datasets using the HP Digital Resource Registry (HDRR) by providing landing pages for datasets based on their "SPASE" resource descriptions. As an example, any users of NASA's OMNI dataset can now use https://doi.org/10.48322/1shr-ht18 for the hourly dataset, and other DOIs for other sets, discoverable by a search with the Heliophysics Data Portal (HDP; https://heliophysicsdata.gsfc.nasa.gov; look for "omni" in the "observatory" entry at the left). More details for DOI initiation for resources in the HDP can be found [https://hpde.gsfc.nasa.gov/DOI_Initiative_October_2020.pdf here]. For further information, and especially to start the process of registering DOIs, contact James Weygand (jweygand@igpp.ucla.edu or jweygand@epss.ucla.edu).<br />
<br />
As noted above, a SPASE resource description is required for each magnetometer dataset to mint a DOI. Here's an example for the [https://drive.google.com/file/d/1MxEDFAa_grGuCdID9vwK9pRzkzH7FQYR/view?usp=sharing MACCS magnetometer network 5s measurements].<br />
<br />
== 2019 GEM workshop meeting ==<br />
<br />
The ground magnetometer advisory board was formed in 2016 as a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts.<br />
<br />
We invite the GEM community to attend our meeting on Monday, June 24 at 1:30 PM, where we’ll discuss updates on all the above items. Later this year, we’ll add new members to the advisory board who either operate ground magnetometers or use magnetometer data to support their scientific investigations and/or space weather monitoring efforts. If you’re interested in learning more about this opportunity, please attend this GEM meeting or contact Mike Hartinger (mdhartin@vt.edu).<br />
<br />
Monday, 24 June, 1:30 PM, Location: Santa Fe<br />
*Mike Hartinger - Updates on ground magnetometer advisory board activities<br />
*Mark Engebretson - Summary of information gathering report<br />
*Lisa Winter - NSF updates<br />
*Hyomin Kim - DRUM/DASI updates and future plans, discussion<br />
*Jesper Gjerloev - SuperMAG updates<br />
*Josh Rigler - USGS updates, updates from other magnetometer arrays<br />
<br />
== 2019 mini-GEM workshop meeting ==<br />
<br />
Sunday, 8 December, 1200-1330, Location: Oregon Room<br />
*Mike Hartinger - [https://drive.google.com/file/d/1f3nDkQU4Red2gBLe_I5z_z0LOTHRyfN8/view?usp=sharing Introduction and Overview of Advisory Board activities, updates on DOI and new instruments]<br />
*Howard Singer - [https://drive.google.com/file/d/16poHzPvIM60z9Z7E_qXHznRGL80cjRRY/view?usp=sharing How ground magnetometers are currently incorporated into forecasts at SWPC, how they could be incorporated in the future]<br />
*Jennifer Gannon - How ground magnetometers can best be used to monitor/investigate GIC, utility-grade magnetometers<br />
*Endawoke Yizengaw - Open discussion with NSF, DRUM/DASI future proposal plans<br />
*Anna Kelbert - [https://drive.google.com/open?id=1XFHxruhasIRvZ3JDGtVtExZE6d87tM0X USGS Geomagnetism Program updates]<br />
*Peter Chi - update on ULTIMA activities / international collaboration<br />
*James Weygand - [https://drive.google.com/open?id=1Uq5ArdynNUk6ymbrBAcbFU9zbzH1eD3t Spherical Elementary Currents and Mid/Low Latitude Data Availability]<br />
*Walk-ins TBD (Amy Keesee/Mike Coughlin,...)<br />
<br />
<br />
== August 2020 Virtual Discussion: Ground Magnetometer Measurements for Heliophysics Research and Space Weather Monitoring ==<br />
<br />
Friday, 7 August, 1500-1630 EDT<br />
<br />
[https://drive.google.com/file/d/1uQ18wVmQC9de6zGn8wXVmXHvkomQPP63/view?usp=sharing Meeting Summary and Community Feedback from Google Form]<br />
<br />
Discussion from this meeting and previous meetings was summarized in this [https://drive.google.com/file/d/1-lrglV9h7OneMK8XK0yjnPk3XhhMMMNg/view?usp=sharing Heliophysics 2050 white paper].<br />
<br />
Invited Speakers<br />
* Syau-Yun Hsieh – [https://drive.google.com/file/d/1nRB6Xjc8F4tyGDtFHSoH6Tr3Kxh8hnkq/view?usp=sharing SMILE mission ground-based support]<br />
* Enrico Camporeale – [https://drive.google.com/file/d/1JiQTM6I4q9TIcEYDlHSfWwM1nkwaLjNS/view?usp=sharing Long-term continuous magnetometer data for geomagnetic activity prediction using machine learning]<br />
* Slava Merkin – [https://drive.google.com/file/d/1-nALz_h5IUMtUPPZKGQh3KNHS-GxbBqx/view?usp=sharing What is required of global magnetosphere-ionosphere-thermosphere models to predict ground magnetic perturbations]<br />
<br />
Project Updates<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/15fE4UXOXYYjACtDilek9s1DDd8h9ODho/view?usp=sharing SuperMAG]<br />
* Michelle Salzano, [https://drive.google.com/file/d/12fI2yM-q_fw-4-4cN_8Nsp3oECtohjPh/view?usp=sharing MICA]<br />
* Josh Rigler, [https://drive.google.com/file/d/1aYjQcO-56TyNB0U97bobyRVsu1D05iJo/view?usp=sharing USGS] <br />
* Jennifer Gannon, [https://drive.google.com/file/d/17KkpAGoV1OwOAsi8n6x3fTF2q6xk_CNV/view?usp=sharing MagStar]<br />
* Chuck Smith, [https://drive.google.com/file/d/1VuUgOTyFrrBxuvxmdbJoVgYeyEmAUgIw/view?usp=sharing Space Weather Underground]<br />
* Endawoke Yizengaw, iMAGS<br />
* Peter Chi, [https://drive.google.com/file/d/1CX26PkNjz_8mFhrmqX14ZxE1m8eO-Rw3/view?usp=sharing SMART]<br />
* Mark Moldwin, [https://drive.google.com/file/d/1zrSgS7iImyWW7rlXWtqheU4gWOLUS3LW/view?usp=sharing New Ground Mag and TEC/GPS system]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1thUuT5pZqMjWI4xR5ytT8IvXSRpBl72c/view?usp=sharing MACCS]<br />
* Don Hampton, [https://drive.google.com/file/d/1DQyBge17GT9r7Vjvjp5LYXio9yGUkLnU/view?usp=sharing GIMA]<br />
* Hyomin Kim, AGO<br />
* Mike Hartinger, [https://drive.google.com/file/d/1OArNCvEEsFdXwi7qmz9_WNQskhcRqBGW/view?usp=sharing AALPIP]<br />
<br />
== February 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research ==<br />
<br />
Thursday, 4 February, 1100-1230 US Eastern Time<br />
<br />
This virtual meeting will begin with an invited talk from Gary Egbert on current/future applications of ground magnetometers to geophysics research, including magnetotellurics research relevant to Heliophysics/GIC. This continues a series of discussions intended to gather feedback for the upcoming Heliophysics Decadal Survey.<br />
<br />
The rest of the meeting will be for updates from SuperMAG and individual magnetometer networks, NSF announcements, and discussion of magnetometer digital object identifiers.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
[https://agu.confex.com/agu/fm20/meetingapp.cgi/Paper/685551 Link] to Gary Egbert's 2020 AGU presentation, "Modeling Diurnal Variation Magnetic Fields for Mantle Induction Studies"<br />
<br />
* 1100-1105 Mike Hartinger, [https://drive.google.com/file/d/1FQUYC_Q0F3I97RAYrOsCN_piy9cu8OcG/view?usp=sharing Introduction and Updates on Digital Object Identifiers]<br />
* 1105-1125 Gary Egbert, [https://drive.google.com/file/d/1fvp4QiW5BpPxtlmopLaPxKp-x9SUX2Wx/view?usp=sharing Current and Future Applications of Ground Magnetometers to Geophysics Research]<br />
* 1125-1135 Jennifer Gannon, [https://drive.google.com/file/d/1AL3NasABl5eDSE-Gh71-MTcR8BuG-PpH/view?usp=sharing MagStar]<br />
* 1135-1145 Josh Rigler / Anna Kelbert, USGS Updates<br />
* 1145-1155 Whitham Reeve, [https://drive.google.com/file/d/1TUetaa2wE7W_b2-h0v3q287B0h6F8LzA/view?usp=sharing SAM-III]<br />
* 1155-1205 Rob Barnes / Matt Potter, [https://drive.google.com/file/d/1xXunj9lafw2m5C3AdDBHi6ZqTPpU-Jtf/view?usp=sharing SuperMAG Updates]<br />
* 1205-1215 [https://drive.google.com/file/d/1YDZB7mhG8rZS5EqzRIax4AvCL2wmm6q7/view?usp=sharing Collaboration tools and NSF opportunities]<br />
* 1215-1230 Additional Brief Project Updates: [https://drive.google.com/file/d/1R-SetUGvFfZyA0emtZtOxZ3WbjXXF2BN/view?usp=sharing MICA], [https://drive.google.com/file/d/1Z62YCvAGkvF2lJmHLAJOG3qtlFvYs09P/view?usp=sharing MACCS], [https://drive.google.com/file/d/1THwB7Cq0K5hhPhY_3BRh9R724FwXssD-/view?usp=sharing NJIT], [https://drive.google.com/file/d/17XYtKyofyw_1uRc1T69K2l7Qxiiccyau/view?usp=sharing AALPIP]<br />
<br />
== July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey ==<br />
<br />
Thursday, 8 July, 1200-1330 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey. The discussion began with several presentations related to open magnetometer science questions and infrastructure. The rest of the meeting was for open discussion on topics for magnetometer-related white papers for the decadal survey.<br />
<br />
[https://drive.google.com/file/d/1yEqAe-CuK0XQBLiP5vsrhEAg3LhRaIui/view?usp=sharing Meeting notes]<br />
<br />
* Mike Hartinger, [https://drive.google.com/file/d/1FVolkY5xVn4DeL_3TFQmLWIpcdl6vKHF/view?usp=sharing Overview of the Meeting, NSF Opportunities]<br />
* Adam Schultz, [https://drive.google.com/file/d/1iVcUlawbmcbkhyVZLdaLp1s-_f8QSKm7/view?usp=sharing Improving Situational Awareness of ground-level EM fields]<br />
* Dan Schneider, [https://drive.google.com/file/d/1KGiHVAEQkynAkKeqYFBwV0ynrrMAetke/view?usp=sharing QuakeFinder: Induction Coil Magnetometer Array]<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/1G4MGyKsbCIdBhNU0e3hoNqeA7HP_uZsD/view?usp=sharing SuperMAG news]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1pNoWfpl8XyaQ5qtKX1nMXJrzaxX3sIkk/view?usp=sharing Unresolved issues in MPE-GIC studies]<br />
<br />
== October 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (1) ==<br />
<br />
Thursday, 19 October, 1400-1530 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July 2021. This was a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== February 2022 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (2) ==<br />
<br />
Monday, 7 February, 1600-1700 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July and October 2021. The meeting started with a [https://drive.google.com/file/d/1TAjZPnhS60InWkukMMrVQh4rxzeZo0hd/view?usp=sharing presentation] discussing upcoming meetings and other announcements related to the Decadal Survey as well as plans for an over-arching ground magnetometer white paper. The remaining time was for a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== 2022 GEM Workshop meeting ==<br />
<br />
Monday, 20 June, 1030-1200 US Hawaii Time<br />
<br />
The GEM GIC focus group and US magnetometer group will have a joint session at the 2022 GEM workshop. The session will begin with an introduction to both groups followed by an invited talk by Dr. Chigomezyo Ngwira on geomagnetically induced currents and geomagnetic disturbances. The remainder of the session will be for discussion of Solar and Space Physics Decadal Survey white papers related to ground magnetometers and short magnetometer network updates. If you'd like to present an overview of a magnetometer-related white paper (2-3 slide, <5 minute) or give a magnetometer network update (1 slide, <1 minute), please contact Mike Hartinger, mdhartin1@gmail.com<br />
<br />
* Mike Hartinger, Overview of the US Ground Magnetometer Group<br />
* Xueling Shi, Overview of the new GEM GIC focus group<br />
* Chigomezyo Ngwira, Review of Geomagnetic Disturbances and GIC<br />
* Jesper Gjerloev, Decadal survey white paper<br />
* Mike Hartinger, Decadal survey white paper<br />
* All, Discussion of Decadal survey white papers<br />
* Magnetometer Network/SuperMAG Updates (1-slide each): Jesper Gjerloev (SuperMAG), Shane Coyle (AALPIP), Shane Coyle (GPS Rollover)</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=FG:_ULF_Wave_Modeling,_Effects,_and_Applications&diff=5564FG: ULF Wave Modeling, Effects, and Applications2022-04-18T23:17:53Z<p>Mdhartin: </p>
<hr />
<div>''Focus Group Leaders:''<br />
* Michael Hartinger, Space Science Institute (mhartinger@spacescience.org)<br />
* Kazue Takahashi, Applied Physics Laboratory<br />
* Alexander Drozdov, UCLA<br />
* Maria Usanova, University of Colorado<br />
* Brian Kress, University of Colorado and NOAA-NCEI<br />
* Xueling Shi, Virginia Tech<br />
<br />
Focus Group term: 2016-2021<br />
<br />
== Science Questions ==<br />
Our group aims to address the following broad science questions: What mechanisms excite ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in Magnetosphere-Ionosphere coupling?<br />
<br />
== Focus Group Proposal ==<br />
[http://gem.epss.ucla.edu/mediawiki/FGproposals/Hartinger-UMEA.pdf ULF Wave Modeling, Effects, and Applications (UMEA)] (December 2015)<br />
<br />
== Focus Group Final Publications ==<br />
Review of Focus Group activities from 2016-2021: [https://www.frontiersin.org/articles/10.3389/fspas.2022.867394/full ULF Wave Modeling, Effects, and Applications: Accomplishments, Recent Advances, and Future]<br />
<br />
Summary of panel discussion during joint session with RB focus group at the 2021 GEM workshop: [https://agupubs.onlinelibrary.wiley.com/doi/10.1029/2022EA002216 Radial Transport Versus Local Acceleration: The Long-Standing Debate]<br />
<br />
== ULF wave modeling challenge ==<br />
<br />
One part of the ULF wave modeling challenge involves running several global MHD simulation codes with identical, idealized solar wind driving conditions (sinusoidal density variation), then comparing the resulting global ULF wave properties and discussing differences in the context of differing boundary conditions, grids, etc. More details can be found here: [http://ccmc.gsfc.nasa.gov/challenges/ULF/ ULF wave modeling challenge at CCMC]<br />
<br />
Another part of the ULF wave modeling challenge involves data-model comparisons during specific events. At the 2017 GEM and mini-GEM meetings several [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing challenge events] were proposed, including two [https://drive.google.com/open?id=1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI 2017 events].<br />
<br />
We have selected the [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing 27-28 May 2017 storm event] for the ULF wave modeling challenge due to favorable solar wind coverage and availability of numerous satellites (MMS, ARASE, THEMIS, RBSP, Cluster, GOES, ...) and ground-based observations for global context and multi-point wave observations. We will be continuously updating this [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing overview presentation] with observation and modeling results. Model output and observations for the challenge event - including global densities from the NURD model - can be obtained [https://drive.google.com/drive/folders/1Bk9vJtbEHd-vSuYqr3UG9NGCqaBn69hw?usp=sharing here]. If you would like to add additional observations/model output to the google drive or overview pdf, please contact the co-chairs.<br />
<br />
CCMC has run several global MHD simulation codes using the driving conditions of the ULF wave challenge event. At the 2019 GEM meeting and future GEM/mini-GEM meetings, we plan data-model comparisons to identify where model/data don't agree and discuss these differences in the context of incorrect boundary conditions (e.g., compare model ionosphere to local PFISR-derived conductivities), missing physics, numerical dissipation, etc. Please contact CCMC/Lutz Rastaetter and model developers before using this simulation output in publications:<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_SWMF_040319_1 Space Weather Modeling Framework simulation], IMF Bx=0 (other parameters as in event). Full 2-day event, 3D output every 15s, virtual ground magnetometer. If you haven't used CCMC visualization tools before, be aware that you shouldn’t submit multiple visualization requests at the same time, as this could crash CCMC server for these large 3D files. Instead, request a batch process or wait for the first visualization request to complete. The easiest/fastest visualization is to follow the link above and scroll down until you see the virtual ground magnetometer and satellites list. Click on the magnetometer/satellite of interest, then select which parameter(s) to display/download. <br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_1 OpenGGCM run 1] – IMF Bx = -7 nT. Smaller time range available on 28 May 0400-1000, only virtual ground magnetometer from POKR/CMO available now. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_1 Full results including virtual satellite.]<br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_2 Open GGCM run 2] – IMF Bx = 0 nT (as in SWMF simulation). Same format as other OpenGGCM simulation. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_2 Full results including virtual satellite.]<br />
<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_LFM_051519_2 LFM simulation]<br />
<br />
== ULF wave HGSO event coordination ==<br />
Our group is helping coordinate analysis of conjunction events for ULF wave studies, including requesting instrument operation modes favorable for ULF wave analysis.<br />
<br />
The [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] 0400-0800 UT conjunction event includes several satellites (THEMIS, Cluster, Van Allen Probes, GOES, Geotail, FIREBIRD, METOP, POES, DMSP) in the pre-midnight sector during a conjunction with the Poker Flat Incoherent Scatter Radar and several SuperDARN radars. PFISR was operating throughout the conjunction, several SuperDARN radars were in high resolution sampling modes, and several satellites were operating in fast survey/burst mode. The conjunction is favorable for modeling and observation studies of magnetosphere-ionosphere coupling via ULF waves, wave-particle interactions, global ULF wave properties, and many other topics. [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing This pdf] summarizes preliminary results<br />
<br />
Several web-based tools are available for identifying future conjunctions, including [https://ergsc.isee.nagoya-u.ac.jp/analysis/index.shtml.en upcoming conjunctions between ARASE and Van Allen Probes/ground] and conjunctions between [https://swarm-aurora.com/conjunctionFinder/ SWARM/all-sky cameras].<br />
<br />
'''There are also many specialized, web-based tools for ULF wave analysis (please contact FG co-chairs to add to this list):'''<br />
<br />
*SuperMAG ground-based magnetometer [http://supermag.jhuapl.edu/rBrowse/?start=2001-01-30T05%3A00%3A00.000Z&step=14400 global ULF wave plots]<br />
<br />
*CARISMA ground-based magnetometer [http://www.carisma.ca/carisma-data/fgm-pc1-power-spectra Pc1 power spectra] and [http://www.carisma.ca/carisma-data/fgm-pc5-power-spectra Pc5 power spectra]<br />
<br />
*Augsburg College/UNH Arctic and Antarctic [http://space.augsburg.edu/searchcoil/index.html search coil magnetometer survey plots] <br />
<br />
*Augsburg College (hosted by ViRBO) [http://virbo.org/Augsburg/ULF ULF wave index]<br />
<br />
*[http://vt.superdarn.org/tiki-index.php?page=DaViT+DynFFT SuperDARN wave analysis] and [http://vt.superdarn.org/tiki-index.php?page=Data+Inventory identification of high time-resolution SuperDARN beams]<br />
<br />
*THEMIS satellite fluxgate magnetometer [http://themis.ssl.berkeley.edu/summary.php?year=2014&month=05&day=11&hour=0024&sumType=thmfgmdyn&type=themislinfgl wave survey plots]<br />
<br />
*National Institute of Polar Research inter-hemispheric comparisons of Syowa/Iceland [http://iugonet0.nipr.ac.jp/web/induction/ induction magnetometer spectra]<br />
<br />
*[http://mist.nianet.org/Satellite_Conjunctions/ Inter-hemispheric comparisons] during satellite conjunctions with Arctic(DTU Space)/Antarctic(Virginia Tech) magnetometers<br />
<br />
*[http://kho.unis.no/uaf_msp.htm Meridian Scanning Photometer plots] from [http://kho.unis.no/ UNIS/Kjell Henriksen Observatory], for context on open-closed boundary and ULF modulation of the aurora<br />
<br />
== Summary Reports for GEM workshops ==<br />
[https://drive.google.com/file/d/1QLH8FcKm3-f25aLwoetOuYJGZu5sPgN3/view?usp=sharing 2016 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1SRIv6Gn-NNnqGPHGvjvZQcdDml2GQpv_/view?usp=sharing 2017 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1clzFHWrxC9hvYf9kECJx4bPn9xn8WwsG/view?usp=sharing 2018 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1_fLwZFCLBTBHnq8HkaFPWUvaIY81E-t0/view?usp=sharing 2019 UMEA FG report]<br />
<br />
== 2016 Mini-GEM schedule ==<br />
UMEA will hold one session at the [http://www.cpe.vt.edu/gem-mini/ mini-GEM workshop]: ULF wave modeling, effects and applications updates<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 11, 2016<br />
<br />
'''Location''': Oregon Room, Holiday Inn Golden Gateway<br />
<br />
'''Schedule:'''<br />
<br />
'''First Half (12:00 – 12:45): 3 talks (~15 min each):'''<br />
<br />
*1. Mike Hartinger -- [http://gem.epss.ucla.edu/mediawikiwiki/images/7/7c/UMEAoverview_miniGEM2016.pdf Overview of UMEA current activities, discussion of future plans]<br />
<br />
*2. Lutz Rastaetter -- ULF wave modeling challenge at CCMC<br />
<br />
*3. Robert Rankin -- Modeling the global properties and ground-based signatures of ULF waves and wave-particle interactions<br />
<br />
'''Second Half (12:45 – 13:30): (5 minutes each, 1-2 slides, order of talks may change):'''<br />
<br />
*1. Xueling Shi -- SuperDARN THEMIS Mode Data Tracker & ULF Wave Detection<br />
<br />
*2. Richard Denton -- Mass density inferred from Alfven wave frequencies measured by RBSP<br />
<br />
*3. Lars Daldorff -- ULF waves, particle transport and energization in global MHD simulations with plasmasphere<br />
<br />
*4. Alexander Drozdov -- Dependence of radiation belt simulations to assumed radial diffusion rates tested for two empirical models of radial transport<br />
<br />
*5. Bob Lysak -- Quarter Wavelength Modes<br />
<br />
*6. Walk-ins<br />
<br />
== 2017 GEM meeting schedule ==<br />
UMEA will hold four sessions session at the 2017 GEM meeting<br />
<br />
'''UMEA Update and plans, general discussion of ULF wave modeling and observations''': 10:30-12:15, Monday, June 19, Port VI-VIII<br />
<br />
*1. Michael Hartinger -- [https://drive.google.com/file/d/0B57bC_V89WW6dnBCbmFFSkFURUk/view?usp=sharing UMEA update]<br />
<br />
*2. Toshi Nishimura -- PFISR measurements during the 2 May 2017 HGSO event<br />
<br />
*3. Xueling Shi -- [https://drive.google.com/file/d/0B57bC_V89WW6OUcyNGNWM0piWnc/view?usp=sharing A Survey of Ionospheric ULF Wave Signatures in SuperDARN Data: Occurrence Statistics and Driving Mechanisms]<br />
<br />
*4. Tetsuo Motoba -- Dayside Auroral Pulsations<br />
<br />
*5. Brian Kress and Rob Redmon -- Newly Available GOES 8-16 Particle and Magnetic Field Measurements<br />
<br />
*6. Dick Wolf -- Theory of magnetospheric buoyancy waves<br />
<br />
<br />
'''ULF wave interactions with the radiation belt and ring current populations''': 1:30-3:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Rualdo Soto-Chavez -- Generation of Pc5-ULF wave by the drift-mirror instability<br />
<br />
*2. Zhiyang Xia -- [https://drive.google.com/file/d/0B57bC_V89WW6Y1VQRXJKd3Qya3c/view?usp=sharing Eigenmode analysis of compressional poloidal modes in a self-consistent magnetic field]<br />
<br />
*3. Mark Engebretson -- [https://drive.google.com/file/d/0B57bC_V89WW6QlM3LU9lTVVwZ1E/view?usp=sharing Statistical study of the upper frequency cutoff of helium band EMIC waves observed by the Van Allen Probes]<br />
<br />
*4. Alexander Drozdov -- Radial diffusion and EMIC waves in the long-term simulation and in the case study<br />
<br />
*5. Seth Claudepierre -- Global MHD simulations driven by idealized Alfvenic fluctuations in the solar wind<br />
<br />
*6. Michael Hartinger -- Radiation belt response to large scale, monochromatic ULF waves: LANL-GEO observations<br />
<br />
<br />
'''ULF wave modeling, including CCMC modeling challenge, Joint with MMV''': 3:30-5:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Lutz Rastaetter -- CCMC ULF wave modeling challenge update and challenge events<br />
<br />
*2. Scot Elkington -- [https://drive.google.com/file/d/0B57bC_V89WW6WUxJcGNqbUU2bzA/view?usp=sharing ULF wave activity and diffusion coefficients during QARBM challenge events], [https://drive.google.com/file/d/0B3MAHZknMumcem40dTVyNVRFbE0/view?usp=sharing Ashar F. Ali’s write-up on Event-Specific Radial Diffusion Coefficients Derived Using RBSP EMFISIS and EFW Data]<br />
<br />
*3. Katariina Nykyri -- KHI challenge events<br />
<br />
*4. All -- Open Discussion of Challenge Events<br />
<br />
*5. Doga Ozturk -- Effects of Increased Solar Wind Dynamic Pressure on the Coupled M-I system under different IMF By<br />
<br />
*6. Kazue Takahashi -- Cavity mode Van Allen Probe observations<br />
<br />
*7. Bob Lysak -- Cavity mode models<br />
<br />
*8. Tom Elsden -- [https://drive.google.com/file/d/0B57bC_V89WW6SDNnYjdwSVM3Y3c/view?usp=sharing The Theoretical Foundation of 3D Alfven Resonances: Time Dependent Solutions]<br />
<br />
<br />
'''Magnetosphere-Ionosphere coupling processes associated with localized disturbances caused by dayside kinetic phenomena: Joint with “Dayside Kinetic Processes…” and “Testing proposed links…”''': 3:30-5:00, Tuesday, June 20, Port VI-VIII<br />
<br />
*1. Peter Chi -- Magnetospheric and ionospheric responses to a localized disturbance: The macroscopic view<br />
<br />
*2. Hui Zhang -- Magnetospheric ULF waves generated by foreshock transients<br />
<br />
*3. Hui Zhang -- Modeling challenges in simulating HFA geoeffects<br />
<br />
*4. Boyi Wang -- Optical signatures of dayside ULF waves during magnetosheath high-speed jets<br />
<br />
*5. Katariina Nykyri -- The effect of magnetosheath seed spectrum on KH evolution and associated mass transport<br />
<br />
*6. Kyle Murphy -- A statistical study of discrete ULF wave power observed by GOES<br />
<br />
== 2017 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2017 mini-GEM] workshop<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 10, 2017, Canal/50<br />
<br />
'''ULF wave modeling challenges'''<br />
Discussion of final plans for the CCMC ULF wave modeling challenge with idealized drivers, as well as open discussion of new challenges involving data-model and model-model comparisons during [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing specific events]. Please come with 1-2 slides showing examples of such comparisons, ideas for improving ULF wave models, and/or ideas for specific modeling challenges/sessions relevant to the FG science questions.<br />
<br />
*1. 12:00-12:30 Overview of CCMC ULF wave modeling challenge with idealized driving conditions, description of challenge events and targets proposed during 2017 GEM meeting and November modeling telecon (Michael Hartinger, Lutz Rastaetter)<br />
*2. 12:30-13:30 [https://drive.google.com/file/d/1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI/view?usp=sharing Open discussion of challenge events and targets (Allison Jaynes,] Robert Rankin), select challenge event to be analyzed at 2018 GEM<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 10, 2017, Canal/50<br />
<br />
'''Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
Discussion of HGSO coordination for ULF wave studies. This includes updates on the [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] conjunction event followed by an open discussion of conjunctions and datasets that are particularly useful for ULF wave studies, including upcoming RBSP-ERG-ground conjunctions. Please come with 1-2 slides showing examples of datasets and past/upcoming conjunctions ideal for addressing the FG science questions: What excites ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in MI coupling? We welcome discussion from both modelers and observers of the types of conjunctions and observations that are most needed to address these questions.<br />
<br />
*1. 13:50-14:20 Recently available datasets and conjunctions for ULF wave studies (Chih-Ping Wang, Xueling Shi, Sana Qamar, Rob Redmon)<br />
*2. 14:20-14:35 Updates on 2 May 2017 conjunction event (Toshi Nishimura, Michael Hartinger)<br />
*3. 14:35-15:20 Upcoming ARASE-RBSP conjunctions (Yoshi Miyoshi), Open Discussion of HGSO coordination for ULF wave studies (Toshi Nishimura, Kazue Takahashi)<br />
<br />
== 2018 GEM meeting schedule ==<br />
UMEA will hold [https://drive.google.com/file/d/1uh-ZOICfOBzNs9KLe3saFMnY9P-oqV9R/view?usp=sharing four sessions] at the 2018 GEM meeting. <br />
<br />
'''ULF waves during particle injections and dipolarizations, joint with Dipolarization and Substorm FG''': 10:30-12:00, Monday, June 18<br />
<br />
*1. Discussion of Session Topic<br />
<br />
*2. Bob Lysak -- [https://drive.google.com/file/d/1w8o5aGYbLsIEy2YmaoosF3WNeWTuLE59/view?usp=sharing Ionospheric Conductivity Effects on Pi2 Pulsations]<br />
<br />
*3. Mike Hartinger -- [https://drive.google.com/file/d/1tcJgspMQDkhPPvSTng4eZP7h-j7jvVR7/view?usp=sharing Pi2 waves during an extended period with stable plasmapause location and variable geomagnetic activity]<br />
<br />
*4. Toshi Nishimura -- Ionosphere observations of Pc5 ULF waves during 2018 HGSO conjunctions<br />
<br />
*5. Xueling Shi -- Long-lasting poloidal ULF waves observed by multiple satellite and SuperDARN HF radars<br />
<br />
*6. Jian Yang -- New RCM-I simulation results for buoyancy waves<br />
<br />
*7. Dick Wolf -- [https://drive.google.com/file/d/1vTkH_lmgXCcvkAYU6HgO_R5ZgIdGji3O/view?usp=sharing Theory of Buoyancy Waves] <br />
<br />
*8. Yan Song -- What Causes the Substorm Expansion Phase and Associated ULF Waves?<br />
<br />
<br />
'''Recent advances in ULF wave research''': 1:30-3:00, Monday, June 18 <br />
<br />
*1. [https://drive.google.com/file/d/1ms9kDYlBhCnxti8z9o9Lx8y0PPmkWu_-/view?usp=sharing Overview of focus group goals and recent progress]<br />
<br />
*2. Brief ULF wave poster overviews (Tuesday posters)<br />
<br />
*3. Kazue Takahashi -- Observation of nightside ULF waves by RBSP and Arase<br />
<br />
*4. Tom Elsden -- Broadband Excitation of 3D Alfven Resonances (FLRs) in an MHD Waveguide<br />
<br />
*5. Boyi Wang -- 2-D structure of foreshock driven Pc5 ULF waves observed by the THEMIS satellites and South Pole imager<br />
<br />
*6. Xiaochen Shen -- Foreshock transient-driven ultra-low frequency (ULF) waves with dawn-dusk asymmetry of wave power<br />
<br />
*7. Chih-Ping Wang -- ULF waves possibly driven by tailward propagation of foreshock perturbations<br />
<br />
*8. Allison Jaynes -- [https://drive.google.com/file/d/1EC3yPvda8fA0LUr9qTfszluNDLs6LdHT/view?usp=sharing Fast diffusion of ultra-relativistic electrons in the outer radiation belt: 17 March 2015 storm event]<br />
<br />
*9. Rualdo Soto -- The Drift-Mirror instability in Earth's inner magnetosphere<br />
<br />
*10. Martin Archer/Mike Hartinger -- [https://drive.google.com/file/d/1t4fmiiZP9wdJ-40TISEC7BuicEd64m7W/view?usp=sharing Results from Sonification and Citizen Science of Magnetospheric ULF waves]<br />
<br />
<br />
'''EMIC wave generation, propagation, and interactions''': 3:30-5:00, Monday, June 18 (discussion leaders: Alexander Drozdov and Maria Usanova)<br />
[https://drive.google.com/open?id=15rjO2UxK8sqdOfHXunDSLv5q-z51vwuD Session Summary]<br />
<br />
*1. Dedong Wang -- EMIC wave observations from Van Allen Probes and MMS<br />
<br />
*2. Mark Engebretson -- [https://drive.google.com/file/d/1jkhN45ezaeQyeAA7HmVuYOF_izjAMYra/view?usp=sharing Van Allen Probes, and ground based magnetometer observations of EMIC waves associated with a modest interplanetary shock]<br />
<br />
*3. Maria Usanova -- MMS Observations of Harmonic Electromagnetic Cyclotron Waves<br />
<br />
*4. Naritoshi Kitamura -- Direct measurements of energy transfer from hot H+ to EMIC waves by MMS<br />
<br />
*5. Bruce Fritz -- ELF Whistler Dependence on a Sunlit Ionosphere<br />
<br />
*6. Chae-Woo Jun -- EMIC waves associated with/without the injection inside/outside the plasmapause<br />
<br />
*7. Hyomin Kim -- Injection-associated EMIC waves<br />
<br />
*8. Sebastian Cervantes -- EMIC wave parameterization in radiation belt reanalysis<br />
<br />
*9. Maria Usanova -- Long-term correlation of EMIC wave activity and radiation belt flux variations<br />
<br />
*10. Alexander Drozdov -- The effects due to the EMIC waves in the VERB code modeling<br />
<br />
<br />
'''ULF wave modeling challenge, joint with MMV FG''': 3:30-5:00, Wednesday, June 20<br />
<br />
*1. Brief ULF wave poster overviews (Thursday posters)<br />
<br />
*2. Mike Hartinger: [https://drive.google.com/file/d/1g2cL_qaDbASLH5DoJ_auJKQCbG96sdQn/view?usp=sharing ULF wave modeling challenge event overview, discussion of challenge targets (continuing during session)]<br />
<br />
*3. Mariko Teramoto: ARASE ULF wave observations during challenge event<br />
<br />
*4. Sam Califf: [https://drive.google.com/file/d/1CvbVG2Dp8e6RokJE0501L8-LU9ipdUFT/view?usp=sharing GOES-14 and 16 observations during the ULF wave challenge event, Data Discussion]<br />
<br />
*5. Toshi Nishimura: [https://drive.google.com/file/d/1cavbwNU4LoAigIsGvGF_UtiTaM97dFtP/view?usp=sharing PFISR measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*6. Dogacan Su Ozturk: [https://drive.google.com/file/d/1MmP3D_4eeJbEVJzUyx8fAtFsG3b0grzy/view?usp=sharing The modeling study of the 27 March 2017 Event] <br />
<br />
*7. Xiaochen Shen: GEM Challenge Event: ULF wave-related electron and proton precipitation/negative dynamic pressure pulse driven EMIC wave<br />
<br />
*8. Tetsuo Motoba: [https://drive.google.com/file/d/1544ngYBXat-zUC1gZqo0lMVUZtYqxUqH/view?usp=sharing Auroral measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*9. Others discuss when their figures/summary plots in event overview pdf are presented…<br />
<br />
== 2018 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2018 mini-GEM] workshop<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF modulation of the aurora, Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
This session focuses on understanding a variety of mechanisms responsible for ULF modulations of the aurora. Eric Donovan will give a 30 minute invited presentation, with the rest of the session open for presentations and discussion on this topic. We welcome discussion of ULF aurora generation mechanisms and the types of conjunctions, observations, and models needed to understand the zoo of ULF auroral modulations. We also welcome discussion of upcoming observation campaigns/satellite conjunctions that would be particularly useful for ULF wave studies.<br />
<br />
*1. Eric Donovan<br />
*2. Tetsuo Motoba<br />
*3. Slava Pilipenko<br />
*4. Boyi Wang / Toshi Nishimura<br />
*5. Open discussion<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF wave modeling challenge and research highlights'''<br />
The first part of the session is for updates on the idealized ULF wave modeling challenge and potential 2019 GEM sessions. The next part of the session is for observation/model presentations relevant to the 27-28 May 2017 ULF wave challenge event and final selection of the modeling challenge targets – all types of models and observations welcome. The last part of the session will be open for 1 slide ULF wave modeling and observation research highlights. <br />
<br />
*1. [https://drive.google.com/file/d/1vqxxn3gYXfzDKABe9yRwMgR8vbKRua_j/view?usp=sharing 2019 GEM session ideas] (Mike Hartinger)<br />
*2. Idealized Modeling Challenge (Lutz Rastaetter)<br />
*3. ULF wave modeling challenge event updates: Rob Redmon/Sam Califf/Mike Hartinger (GOES magnetometer observations), Yoshi Miyoshi (Arase magnetic field observations), [https://drive.google.com/file/d/1B6DGHvAzUhBG79eUJWPsUD2BSjGhQrrw/view?usp=sharing Hyomin Kim (wave-particle interaction)], [https://drive.google.com/file/d/180iaBGrbCPf1rYy6uVZn8OsLTOFREqsD/view?usp=sharing Dong Lin (LFM simulations)]<br />
*4. General ULF wave modeling: [https://drive.google.com/file/d/10gUKitjDPnbV_g9r9CAHDFeE365wUQQd/view?usp=sharing Yaireska Collado-Vega (vortex identification/surface waves)], [https://drive.google.com/file/d/1kkGlYKoYHr7XZf5nT3kaXITUD3tpNynJ/view?usp=sharing Alex Degeling (ULF wave radiation belt interactions)] <br />
*5. Research highlights (1-slide): Rualdo Soto (Van Allen Probes and Cluster satellites’ observations of Pc 5 (mHz) magnetic pulsations), [https://drive.google.com/file/d/1V_Joz3psBQbCBoVKRYaOKdKIEoZ72WgQ/view?usp=sharing Xueling Shi (SuperDARN ULF waves)], Martin Archer (magnetopause surface eigenmodes), [https://drive.google.com/file/d/1Mmi3VfERKswG3dpYidVUgOQra2UG-9s2/view?usp=sharing Martin Archer (sonification)]<br />
<br />
== 2019 GEM meeting schedule ==<br />
<br />
UMEA will hold [https://drive.google.com/file/d/1KmH9XqxrisGH_g4s0ny7QDkutmv7tKlr/view?usp=sharing six sessions] at the 2019 GEM meeting, four joint with other focus groups. <br />
<br />
'''Recent advances in ULF wave research: Modeling''': 3:30-5:00, Monday, June 24 New Mexico room, joint with MMV. <br />
Discussion of advances in ULF wave research, with focus on modeling and modeling challenges (e.g., boundary conditions, grid resolution, missing physics). This includes models of the effects of ULF waves on inner magnetosphere dynamics and wave-particle interactions. We particularly encourage presentations focused on the ULF wave modeling challenge, including data-model comparisons for the 27-28 May 2017 challenge event.<br />
*Mike Hartinger, [https://drive.google.com/open?id=1Drkq9epsQWY4AjpV1EF-8Ci_kaKyN2jk FG updates]<br />
*Jesper Gjerloev, SuperMAG ULF updates<br />
*Tetsuo Motoba, High-time resolution SuperMAG ULF data products<br />
*Lutz Rastaetter, ULF wave modeling challenge<br />
*Maulik Patel, MHD test particle simulations of the 16 July 2017 shock compression of the dayside magnetopause <br />
*Bob McPherron, Pi 2 pulsations during the storm of May 27-29 2017, The Statistics of Pi 2 Pulsation Occurrence during a Major Magnetic Storm<br />
*Dong Lin, LFM simulations of surface waves during challenge event<br />
<br />
'''The ULF response to dayside transients with different temporal/spatial scales''': 10:30-12:00, Wednesday, June 26 Santa Fe room, discussion leader: Tom Elsden, joint with Dayside Kinetics and IHMIC. <br />
Dayside transient phenomena associated with kinetic scale processes cause a variety of ULF wave behaviour in the magnetosphere and further, contribute to significant magnetospheric asymmetries. The aim of this session is to bring together the expertise of the three focus groups listed above, to answer outstanding questions at the overlap of these disciplines. It is hoped that such a discussion should prove fruitful enough to generate a JGR commentary paper in this area. With this in mind, speakers in this session are encouraged to give their views as to the current state of the subject area, and how outstanding problems may be addressed in the future.<br />
* Tom Elsden - Session introduction and goals<br />
* Ferdinand Plaschke (invited) - An overview of dayside transients causing ULF waves<br />
* Tom Elsden - 3D ULF wave modeling with MHD<br />
* Boyi Wang - The role of magnetosheath high-speed jets in triggering magnetospheric Pc5 ULF waves<br />
* Bob Lysak - Ionospheric asymmetries and quarter-wave modes<br />
* Xueling Shi - Conjugate Observations of ULF Waves during an Extended Period of Radial IMF<br />
* Michael Hartinger - Localized magnetopause surface wave activity and [https://drive.google.com/open?id=1d8lDB-FPGa6VErL37aZz3xZSgpNvxbk0 modeling challenges]<br />
* Discussion<br />
<br />
'''ULF wave modeling challenges associated with Magnetosphere-Ionosphere-Thermosphere Coupling''': 3:30-5:00, Wednesday, June 26 Lumpkins Ballroon South, joint with IEMIT, discussion leader Doga Ozturk. <br />
ULF waves play important roles in M-I-T coupling, driving current systems that can lead to I-T system heating and geomagnetically induced currents. This session aims to bring together researchers from the ULF wave and M-I-T coupling research communities to discuss challenges associated with realistically modeling M-I-T coupling processes associated with these waves. The session will begin with a discussion of the ULF wave challenge event; comparisons between modeled / observed (PFISR) conductivities and modeled/observed ULF wave properties will be presented, and the community will be invited to discuss explanations for model/observation differences. The rest of the session is open for short presentations on ULF wave modeling challenges related to M-I-T coupling, including topics such as specifying conductivity and effect of conductivity on wave properties, effect of ionospheric boundary conditions in global simulations, boundary conditions and feedback between magnetosphere and ionosphere, capturing role of waves in ionospheric-thermospheric heating.<br />
# (Invited) Boyi Wang: Ionospheric modulation by Pc5 ULF waves and wave structure detected by PFISR<br />
# (Invited) Xiaojia Zhang / Anton Artemyev: ULF modulation of VLF waves and precipitation<br />
# Doga Ozturk: Update from GEM/CEDAR joint session, [https://drive.google.com/open?id=1WsSf4PFHiBo_iZ3za-bhUWKHFJd4MNQX ULF Wave activity and Meso-Scale electric field variability at high-latitude I-T system]<br />
# Anatoly Streltsov: ULF waves generated by the MI interactions near the plasmapause<br />
# Mergen Alimaganbetov: ULF waves observed in space and on the ground at high and low latitudes<br />
# Mark Engebretson: [https://drive.google.com/open?id=16WbDl3rnuehoifUqFj4oMw_Tn5WhEFlU Multi-Instrument Observations of Nighttime Impulsive Magnetic Events]<br />
# Bob Lysak: Modeling ionospheric conductance and ground magnetic fields<br />
# Yan Song: ULF wave, M-I coupling and Auroral formation.<br />
<br />
[https://drive.google.com/open?id=1wGpZPk086Zs54uWGtYiRjByPmVCFnsSv '''EMIC waves''']: 10:30-12:00, Thursday, June 27 New Mexico room, joint with Radiation Belt. <br />
The generation mechanisms of Electromagnetic Ion Cyclotron (EMIC) waves, their effects on energetic electrons and ions, and their propagation through the magnetosphere-ionosphere system are challenging topics that involve multiple GEM research areas. Despite several years of observations and improved global wave statistics, there are many unresolved questions that limit further investigation, modeling and prediction of dynamical processes in the inner magnetosphere involving EMIC waves. Hence, we invite short presentations that discuss recent findings in different areas of EMIC wave research and identify observations/models most needed to address unresolved questions.<br />
*Robert Allen, Outer magnetospheric EMIC wave source regions characterized by Cluster<br />
*Sarah Vines, EMIC waves in the outer magnetosphere: Observations of an off-equator source region<br />
*Justin Lee, [https://drive.google.com/open?id=1xlJfppvWgOC_JHy6QgPpptcI3GjkYuLC EMIC wave observations by MMS] <br />
*Chao Yue, The relationship between EMIC wave properties and proton distributions based on Van Allen Probes observations<br />
*Kristine Sigsbee, Simultaneous EMIC Wave Observations During a Van Allen Probes Conjunction<br />
*Hyomin Kim, [https://drive.google.com/open?id=1UmmYHxyIcH2FfQmRnffGNnCUNjH8S5qQ Observations of Particle Loss due to Injection-Associated EMIC Waves]<br />
*Yuri Shprits, Dips in PSD and how they are related to EMIC wave scattering<br />
*Richard Denton, Electromagnetic ion cyclotron waves in the dipole magnetosphere and pitch angle scattering of sub-MeV relativistic electrons by those waves<br />
*Qianli Ma, Pitch angle scattering of radiation belt electrons due to statistical EMIC wave spectra <br />
<br />
'''Recent advances in ULF wave research: Observations and HGSO coordination for ULF wave studies''': 1:30-3:00, Thursday, June 27 New Mexico room. <br />
Discussion of recent advances in ULF wave research, with focus on observations and a general discussion of Heliophysics/Geospace System Observatory coordination for ULF wave studies. We particularly encourage presentations describing (1) past or upcoming satellite conjunctions, (2) new data analysis tools, and/or (3) instrumentation/operation modes of interest to the ULF wave research community.<br />
*Seth Claudepierre/Matina Gkioulidou (invited), [https://drive.google.com/open?id=1bjENFjvkWSjLYA_EfFuTxhCyKtVlk7c1 Van Allen Probes: End of Mission and ULF wave studies]<br />
*Tetsuo Motoba, SuperMAG ULF wave tools<br />
*Sarah Vines, Determining EMIC wave vector properties through multi-point measurements: The wave curl analysis<br />
*Aaron Breneman, [https://drive.google.com/open?id=1NHlf9I_VV6vkx9id_NL4gE6YhEsSRxkG BARREL precipitation during solar wind driven ULF wave events] <br />
*Anatoly Streltsov, Effect of the Hall conductivity on generation of ULF waves<br />
*Mohammad Barani, [https://drive.google.com/open?id=1sCMVi0pbWsggpUUnotdl-4LO_hfGGFEc Estimating the Azimuthal Mode Structure of ULF Waves Based on Multiple GOES Satellite Observations]<br />
*Kazue Takahashi, L versus time structures of ground magnetic pulsations<br />
*Chih-Ping Wang, Earthward propagation of Pi2 waves<br />
<br />
'''ULF waves driven by wave-particle interactions and instabilities''': 3:30-5:00, Thursday, June 27 Lumpkins Ballroon South, discussion leaders: Xueling Shi and Hyomin Kim. <br />
Many ULF wave modes are closely related to instabilities and wave-particle interactions inside the magnetosphere: poloidal mode waves associated with particle injections, mirror/drift-mirror modes, buoyancy waves… These waves are often discussed in different contexts and in different GEM sessions. In addition, there have been relatively few studies of modeling internally generated ULF waves. The purpose of this session is to bring together modelers and observers to discuss the underlying processes that drive/damp these waves, their impact(s) on the M-I system (ring current, radiation belt, ionosphere,…), and the models/observations needed to better understand wave dynamics.<br />
*Xuzhi Zhou (invited), Acceleration of relativistic electrons by global-scale ULF waves<br />
*Tomotsugu Yamakawa (invited), [https://drive.google.com/open?id=1PEsq7oWVeXwwXn3JvE5ZvWQIIjfXwKRB Simulation of the excitation of storm-time Pc5 ULF waves by ring current ions based on the drift-kinetic model]<br />
*Frank Toffoletto, Normal Mode Analysis of Buoyancy Waves <br />
*Peter Chi, Observations of High-m Poloidal Waves along Magnetospheric Field Lines<br />
*Mike Hartinger, [https://drive.google.com/open?id=17do2Jxy01SJPmOloBxzTPID9ZzqaPGZI Observations of wave-particle interactions using MagEIS ultra-high resolution energy channels]<br />
*Jiang Liu, Ultralow Frequency Waves Deep Inside the Inner Magnetosphere Driven by Dipolarizing Flux Bundles, and their interaction with electrons<br />
*Kyle Murphy, TBD<br />
<br />
== 2019 Mini-GEM schedule ==<br />
UMEA will hold one session at the [https://gemworkshop.org/ 2019 mini-GEM] workshop<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 8, 2019, Nevada Room<br />
<br />
'''ULF wave modeling challenge event, HGSO coordination, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge and potential 2020 GEM sessions. The next part of the session is open for ULF wave research presentations discussing the ULF wave modeling challenge event or current/upcoming observation campaigns that are particularly useful for ULF wave studies. The last part of the session will be open for 1 slide ULF wave research highlights.<br />
<br />
*Mike Hartinger, [https://drive.google.com/open?id=1eQQc07g7nCTEGNwaTGesQx4ymIU6m815 UMEA updates and proposed sessions for 2020 GEM workshop]<br />
*Dong Lin, [https://drive.google.com/open?id=1SqiD1u69eyKNzLyrtvTWbMK05L5OrkrO LFM Simulations of ULF wave modeling challenge event]<br />
*Mohammad Barani, [https://drive.google.com/open?id=1fQAossqjQ-aBuGIBhDIW6I0_WEtHdQsF High-fidelity ULF wave azimuthal mode number structure estimation using MMS magnetometer observations], [https://www.youtube.com/watch?reload=9&v=W5Vya8pCjNE&t=1s link to related presentation on YouTube]<br />
*Chih-Ping Wang, [https://drive.google.com/open?id=19ugyLwyIp4YRuLpDuzT330IdbbFppQcr Inward propagation of Pi2 wave from plasma sheet to inner magnetosphere: THEMIS-GOES conjunctions]<br />
*Walk-ins<br />
<br />
== 2020 VGEM schedule ==<br />
UMEA will hold two sessions at the [https://gemworkshop.org/ 2020 Virtual GEM] workshop<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave modeling challenge event'''<br />
(Hosted by Xueling Shi)<br />
The first part of the session is for updates on research related to the challenge event (27-29 May 2017 storm): All modeling and observation talks welcome as long as they're related to this event. The last part of the session will be for short research highlights and oral summaries of posters.<br />
<br />
*Mike Hartinger (10 minutes), [https://drive.google.com/file/d/1Z5-g7-f-iKfpuWD03WVkA3Q2Rb9mbQfe/view?usp=sharing 2020 UMEA updates and overview of challenge event] <br />
*Simone Di Matteo (15 minutes), [https://drive.google.com/file/d/1acsSyIszg95muYurOkn0RmW0btblS3Ja/view?usp=sharing On some features characterizing the plasmasphere–magnetosphere–ionosphere system during the geomagnetic storm of 27 May 2017] <br />
*Bob McPherron (15 minutes), [https://drive.google.com/file/d/1pnqs49KamZF2BLgMdaoOroktmkBNnj1c/view?usp=sharing ULF wave activity at synchronous orbit during the May 27-29, 2017 Magnetic storm]<br />
*Boyi Wang (15 minutes), Ionospheric modulation by storm-time Pc5 ULF waves and wave structure detected by PFISR-THEMIS conjunctions<br />
*Lutz Rastaetter (15 minutes), [https://drive.google.com/file/d/1H9nTOrpQHX0NEau1eSktWjWM0KYbyfnM/view?usp=sharing Idealized ULF wave modeling challenge: high-resolution runs] <br />
*Mark Engebretson (5 minutes), [https://drive.google.com/file/d/1kvWyYe52OkTB7uUmKWRDSO305Jina-Yy/view?usp=sharing Nighttime magnetic perturbation events observed in Arctic Canada: Superposed epoch analysis]<br />
*Jinxing Li (5 minutes), Electron microinjections in association with compressional ULF waves: MMS observations<br />
*Xiaojia Zhang (5 minutes), [https://drive.google.com/file/d/1fKwf0t1ohDZIxF5NPtsgGKNP0cBEqECn/view?usp=sharing Spreading of Magnetopause-Generated Ultra-Low-Frequency Perturbations and the Associated Whistler Modulation] <br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave research highlights'''<br />
These will be contributed talks with priority given to graduate students and postdocs. The rationale is that virtual GEM will not provide the same type of networking opportunities as in-person GEM, and we'd like to balance this somewhat by giving more opportunities to students/postdocs to present their work on ULF waves.<br />
<br />
All presentations are 10 minutes including discussion:<br />
*Rachel Rice, Characteristics of Kelvin-Helmholtz Waves as Observed by MMS<br />
*Dong Lin, Idealized ULF wave simulations with GAMERA-RCM model<br />
*Boyi Wang, The interaction between ions and the ULF waves driven by a foreshock transient<br />
*Jayashree Bulusu, [https://drive.google.com/file/d/1YyRAo0I7Cf4-buxhTBXLxYaTWw7GX6SZ/view?usp=sharing Investigation of Pi2s during super quiet conditions from low and mid-latitudes]<br />
*Changzhi Zhai, High-m Poloidal ULF Wave Signatures in GPS TEC Data<br />
*Simone Di Matteo, [https://drive.google.com/file/d/1yYaidiu7O4a0Z8PeQXELiyatB03hJQyX/view?usp=sharing Power Spectral Density Background Estimate and Signal Detection via the Multitaper Method] <br />
*Yixin Hao, [https://drive.google.com/file/d/1iIf5QpLE9t7IThiIPNwhCoRHrbFDoR8R/view?usp=sharing Simultaneous observations of localized and global drift resonance]<br />
*Mohammad Barani, [https://drive.google.com/file/d/1it2y8JXJzrbjmt56MWia7ffbei63gIwC/view?usp=sharing Effects of realistic mode number structure on radial diffusion estimation]<br />
<br />
== 2021 January Virtual Mini-GEM schedule ==<br />
UMEA will hold one session at the Virtual Mini-GEM Worskhop.<br />
<br />
'''Time''': 12:00-14:00 US Eastern Time, Friday, January 22, 2021<br />
<br />
'''ULF wave modeling challenge event, planning for 2021 GEM meeting, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge event, including an invited talk by Naoko Takahashi. The next part of the session will be for open discussion on potential 2021 GEM sessions. The final part of the session will be open for ULF wave research highlights. <br />
*Mike Hartinger, Brief Introduction to Challenge event<br />
*Naoko Takahashi, Relative contribution of ULF waves and whistler-mode chorus to the radiation belt variation during May 2017 storm<br />
*Ian Kelley, GPS TEC response during the ULF wave challenge event<br />
*Mike Hartinger, ULF wave geoelectric fields during the challenge event<br />
*All, Planning for 2021 GEM sessions<br />
*Bob Lysak, FLRs in Jupiter's magnetosphere<br />
*Toshi Nishimura, Upcoming conjunctions for ULF wave studies<br />
*Toshi Nishimura, PFISR and all-sky imager observations of Pc5 ULF waves during substorms<br />
*Francesco Lena, Detection of Hertz Frequency Multiharmonic Field Line Resonances at Low-L (L=1.1–1.5) During Van Allen Probe Perigee Passes<br />
<br />
== 2021 VGEM schedule ==<br />
UMEA will lead four sessions at the [https://gemworkshop.org/ 2021 Virtual GEM] workshop.<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''Recent Advances in ULF Wave Research'''<br />
This session will start with a short update on the ULF wave modeling challenge. The rest of the session will be for recent advances in ULF wave research, with priority given to presentations (1) with data or modeling results related to the challenge event (27-28 May 2017) or (2) discussions of ULF wave data-model comparisons.<br />
<br />
*Michelle Salzano, IPDP-Pi1B - modeling drift shell splitting<br />
*Aditi Upadhyay, Occurrence Characteristics of Electromagnetic Ion Cyclotron Waves at the Indian Antactrtic Station, Maitri<br />
*Yangyang Shen, Tens to hundreds of keV electron precipitation driven by kinetic Alfven waves during an electron injection<br />
*Chih-Ping Wang, Statistical results for Pi2 waves associated with the plasma sheet BBFs observed by THEMIS-RBSP pair with RBSP inside or outside the plasmasphere<br />
*Tom Elsden, Modelling the Varying Location of Field Line Resonances During Geomagnetic Storms<br />
*Denny Oliveira, Factors controlling shock-induced magnetospheric ULF waves<br />
*Short Oral Summaries of Posters<br />
*Open Discussion<br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''The Future of ULF Wave Research'''<br />
<br />
Hosted by Ayomide Olabode<br />
<br />
This session will begin with a review of the ULF wave FG’s original goals, research topics covered in the last 5 years and related activities, and unresolved questions and research objectives. The remainder of the session is open for 1-2 slide presentations on major unresolved questions in ULF wave research. We particularly encourage presentations (1) exploring topics that could be addressed by current/future GEM FG or decadal survey white paper, (2) highlighting major questions or obstacles preventing progress in ULF wave research (e.g., missing data in a critical region, missing theory/modeling component), (3) discuss how ULF wave researchers can best take advantage of future satellite missions, ground-based infrastructure, computing advances/big data/AI, and modeling/theory advances. <br />
<br />
*Mike Hartinger, Retrospective on the ULF wave focus group<br />
*Martin Archer, Surface Waves<br />
*Tom Elsden, 3D FLRs<br />
*Alexander Drozdov, Radial Diffusion<br />
*Ayomide Olabode and Michelle Salzano, Ground Magnetic Perturbations<br />
*Mark Engebretson, Pc1 waves / MMS k-vector technique<br />
*Xueling Shi, Applications of TEC observations<br />
*Open discussion, walk-in presentations welcome<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Tuesday, July 27, 2021<br />
<br />
'''ULF Wave M-I Coupling Processes'''<br />
This session is joint with the IEMIT FG. The session will begin with a review of the role of ULF waves on M-I coupling. The remainder of the session is open for 5-min presentations on ULF wave topics related to M-I coupling, e.g., auroral acceleration, particle precipitation, geomagnetic perturbations, GICs, etc. More questions and discussions will be left to the end.<br />
<br />
*Hui Zhang, Role of ULF waves in M-I coupling<br />
*Chaosong Huang, Global Pc5 pulsations<br />
*Tetsuo Motoba, Daytime Pc5 Diffuse Auroral Pulsations and Their Association With Outer Magnetospheric ULF Waves<br />
*Anton Artemyev, ULF driven precipitations as observed by ELFIN<br />
*Mark Engebretson, Magnetic perturbation events related to GICs<br />
*Denny Oliveira, IP shock impact angle control of local intense dB/dt variations during substorm<br />
*Xueling Shi, Sources of Intense Geoelectric Fields in the United States<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Friday, July 30, 2021<br />
<br />
'''Coupling Between ULF Waves and Cold Plasma'''<br />
<br />
Hosted by Rachel Rice<br />
<br />
This session is joint with the Cold Plasma FG. The session will begin with a review of mechanisms that couple cold plasma populations to ULF waves by Richard Denton. The remainder of the session is for contributed presentations describing (1) recent advances in our understanding of cold plasma interactions with ULF waves and (2) outstanding questions that could be discussed in future cold plasma FG sessions.<br />
<br />
*Richard Denton, Coupling Between ULF Waves and Cold Plasma<br />
*Alex Degeling, Modeling ULF Waves Trapped in a Plasmaspheric Density Plume <br />
*Eun Hwa Kim, Can Electromagnetic Ion Cyclotron Waves Propagate to the Ground?: 2D Full Wave Simulation<br />
*Bob Lysak, Relation of plasmaspheric cavity modes to Pi2 pulsations in an asymmetric plasmasphere<br />
*Yixin Hao, ULF wave-cold plasma interaction<br />
*Mike Hartinger, The relationship between global ULF wave properties and radial Alfven speed profile<br />
<br />
== 2021 Mini-GEM ==<br />
<br />
Recent findings in various areas of EMIC wave research<br />
<br />
Time: 5:30-7:00 CST, Sunday, December 12, 2021<br />
The session will take place in Hilton Garden Inn New Orleans Convention Center (1001 South Peters Street New Orleans, LA 70130), in Room Anzalea. Virtual participants are welcome to use the following zoom link: https://auburn.zoom.us/j/85948889952?pwd=bjdKQStVWmtRaUZWR1JHeEhSYnp2QT09<br />
<br />
Presentations:<br />
*Justin H. Lee, [https://drive.google.com/file/d/1EyrlbKD32TmdEWWqpcig9ENdxdbbQClE/view?usp=sharing MMS measurements of cold and hot ion composition and EMIC waves]<br />
*Kristine Sigsbee, [https://docs.google.com/presentation/d/1MvWgE_eMEtRm49lGgfV4bvLoGkpnTrtH/edit?usp=sharing Statistics of Electromagnetic Ion Cyclotron (EMIC) Rising Tones] <br />
*Michael Hartinger, Short overview of open questions<br />
*Open discussion</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=US_Ground-based_magnetometer_arrays&diff=5545US Ground-based magnetometer arrays2022-02-08T01:13:42Z<p>Mdhartin: </p>
<hr />
<div>=== US Ground Magnetometer Board ===<br />
<br />
This wiki page and related ground magnetometer board meetings are part of a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts. For more information about the current state and future of ground magnetometer networks in support of space weather monitoring and research, see this article in [https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017SW001718 Space Weather]. <br />
<br />
''Current Ground Magnetometer Board Members:''<br />
* Peter Chi<br />
* Mark Engebretson, (former chair)<br />
* Jennifer Gannon<br />
* Jesper Gjerloev<br />
* Michael Hartinger, (current chair, mhartinger@spacescience.org)<br />
* Hyomin Kim<br />
* Gang Lu<br />
* Josh Rigler<br />
* Michelle Salzano<br />
* Howard Singer<br />
* Endawoke Yizengaw<br />
<br />
''Former Ground Magnetometer Board Members:''<br />
* Carol Finn<br />
* Efthyia Zesta<br />
<br />
=== US-Sponsored Ground-Based Magnetometer Arrays and Programs* ===<br />
<br />
{| class="wikitable" style="width: 50%; height: 4em;"<br />
|-<br />
| Array || Location || Instruments || Manufacturer || No. of Locations<br />
|-<br />
| AAL-PIP || Antarctica || Fluxgate || Lviv Centre ISR || 6<br />
|-<br />
| AAL-PIP || Antarctica || Induction Coil || UNH || 4<br />
|-<br />
| AMBER || Africa || Fluxgate || UCLA || 7<br />
|-<br />
| AMBER || South America || Fluxgate || UCLA || 2<br />
|-<br />
| AMBER || East Asia || Fluxgate || UCLA || 4<br />
|-<br />
| Falcon || Continental US || Fluxgate || UCLA || 11<br />
|-<br />
| GIMA || Alaska || Fluxgate || Narod || 9<br />
|-<br />
| Jicamarca || South America || Fluxgate || UCLA || 2<br />
|-<br />
| LISN || South America || Fluxgate || Custom/Jicamarca || 6<br />
|-<br />
| MACCS || Arctic Canada || Fluxgate || Narod || 8<br />
|-<br />
| McMAC || Continental US & Mexico || Fluxgate || UCLA || 9<br />
|-<br />
| MEASURE || Continental US || Fluxgate || UCLA || 6<br />
|-<br />
| SAMBA || South America & Antarctica || Fluxgate || UCLA || 12<br />
|-<br />
| THEMIS || Continental US & Canada || Fluxgate || UCLA || 24<br />
|-<br />
| US Geological Survey || US & Territories || Fluxgate || Narod, Technical Univ of Denmark || 11<br />
|-<br />
| NJIT / AGO || Antarctica || Fluxgate || Bell Labs || 7<br />
|-<br />
| NJIT / AGO || Antarctica || Induction Coil || Tohoku University || 5<br />
|-<br />
| MICA || Antarctica || Induction Coil || UNH || 5<br />
|-<br />
| MICA || Arctic Canada || Induction Coil || UNH || 4<br />
|-<br />
| MICA || Svalbard || Induction Coil || UNH || 4<br />
|}<br />
<br />
*Some locations listed here have instruments that are not currently operating.<br />
<br />
=== Ground Magnetometer Data ===<br />
<br />
[http://supermag.jhuapl.edu/ SuperMAG]<br />
<br />
[https://www.usgs.gov/natural-hazards/geomagnetism/data-tools USGS Geomagnetism Program]<br />
<br />
[https://www.intermagnet.org/ INTERMAGNET]<br />
<br />
[http://vmo.igpp.ucla.edu/data1/SECS/Quicklook/ Spherical Elementary Currents] from James Weygand<br />
<br />
[http://themis.ssl.berkeley.edu/gmag/gmag_list.php?selyear=4000&selmonth=13&smap=on&sinfo=on&saelist=on&ae=on THEMIS]<br />
<br />
[https://cdaweb.gsfc.nasa.gov/index.html/ NASA CDAWeb]<br />
<br />
[http://mirl.unh.edu/ulf_status.html UNH Magnetic Induction Coil Array (MICA)]<br />
<br />
[http://search.iugonet.org/list.jsp IUGONET]<br />
<br />
=== Digital Object Identifiers for Ground Magnetometer Data ===<br />
<br />
Digital Object Identifiers (DOI) allow authors to cite data products just as they refer to papers. This is becoming a requirement of many journals, as it assures that the specific data used in a publication are findable and accessible. The DOI provides a permanent identifier (PID) for the data, remaining unchanged even if the data are moved to another archive. The "creators" (authors) of the data must link the DOI to a "landing page" that provides details about the data and methods for accessing them. Our group recommends that each ground magnetometer network generate DOIs for their datasets, at minimum one DOI for their original measurements (i.e., before filtering and other types of processing are performed).<br />
<br />
As a member of the [https://datacite.org DataCite organization], NASA Heliophysics (HP) can "mint" DOIs for ground magnetometer datasets. NASA HP is providing an easy means to assign DOIs to datasets using the HP Digital Resource Registry (HDRR) by providing landing pages for datasets based on their "SPASE" resource descriptions. As an example, any users of NASA's OMNI dataset can now use https://doi.org/10.48322/1shr-ht18 for the hourly dataset, and other DOIs for other sets, discoverable by a search with the Heliophysics Data Portal (HDP; https://heliophysicsdata.gsfc.nasa.gov; look for "omni" in the "observatory" entry at the left). More details for DOI initiation for resources in the HDP can be found [https://hpde.gsfc.nasa.gov/DOI_Initiative_October_2020.pdf here]. For further information, and especially to start the process of registering DOIs, contact James Weygand (jweygand@igpp.ucla.edu or jweygand@epss.ucla.edu).<br />
<br />
As noted above, a SPASE resource description is required for each magnetometer dataset to mint a DOI. Here's an example for the [https://drive.google.com/file/d/1MxEDFAa_grGuCdID9vwK9pRzkzH7FQYR/view?usp=sharing MACCS magnetometer network 5s measurements].<br />
<br />
== 2019 GEM workshop meeting ==<br />
<br />
The ground magnetometer advisory board was formed in 2016 as a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts.<br />
<br />
We invite the GEM community to attend our meeting on Monday, June 24 at 1:30 PM, where we’ll discuss updates on all the above items. Later this year, we’ll add new members to the advisory board who either operate ground magnetometers or use magnetometer data to support their scientific investigations and/or space weather monitoring efforts. If you’re interested in learning more about this opportunity, please attend this GEM meeting or contact Mike Hartinger (mdhartin@vt.edu).<br />
<br />
Monday, 24 June, 1:30 PM, Location: Santa Fe<br />
*Mike Hartinger - Updates on ground magnetometer advisory board activities<br />
*Mark Engebretson - Summary of information gathering report<br />
*Lisa Winter - NSF updates<br />
*Hyomin Kim - DRUM/DASI updates and future plans, discussion<br />
*Jesper Gjerloev - SuperMAG updates<br />
*Josh Rigler - USGS updates, updates from other magnetometer arrays<br />
<br />
== 2019 mini-GEM workshop meeting ==<br />
<br />
Sunday, 8 December, 1200-1330, Location: Oregon Room<br />
*Mike Hartinger - [https://drive.google.com/file/d/1f3nDkQU4Red2gBLe_I5z_z0LOTHRyfN8/view?usp=sharing Introduction and Overview of Advisory Board activities, updates on DOI and new instruments]<br />
*Howard Singer - [https://drive.google.com/file/d/16poHzPvIM60z9Z7E_qXHznRGL80cjRRY/view?usp=sharing How ground magnetometers are currently incorporated into forecasts at SWPC, how they could be incorporated in the future]<br />
*Jennifer Gannon - How ground magnetometers can best be used to monitor/investigate GIC, utility-grade magnetometers<br />
*Endawoke Yizengaw - Open discussion with NSF, DRUM/DASI future proposal plans<br />
*Anna Kelbert - [https://drive.google.com/open?id=1XFHxruhasIRvZ3JDGtVtExZE6d87tM0X USGS Geomagnetism Program updates]<br />
*Peter Chi - update on ULTIMA activities / international collaboration<br />
*James Weygand - [https://drive.google.com/open?id=1Uq5ArdynNUk6ymbrBAcbFU9zbzH1eD3t Spherical Elementary Currents and Mid/Low Latitude Data Availability]<br />
*Walk-ins TBD (Amy Keesee/Mike Coughlin,...)<br />
<br />
<br />
== August 2020 Virtual Discussion: Ground Magnetometer Measurements for Heliophysics Research and Space Weather Monitoring ==<br />
<br />
Friday, 7 August, 1500-1630 EDT<br />
<br />
[https://drive.google.com/file/d/1uQ18wVmQC9de6zGn8wXVmXHvkomQPP63/view?usp=sharing Meeting Summary and Community Feedback from Google Form]<br />
<br />
Discussion from this meeting and previous meetings was summarized in this [https://drive.google.com/file/d/1-lrglV9h7OneMK8XK0yjnPk3XhhMMMNg/view?usp=sharing Heliophysics 2050 white paper].<br />
<br />
Invited Speakers<br />
* Syau-Yun Hsieh – [https://drive.google.com/file/d/1nRB6Xjc8F4tyGDtFHSoH6Tr3Kxh8hnkq/view?usp=sharing SMILE mission ground-based support]<br />
* Enrico Camporeale – [https://drive.google.com/file/d/1JiQTM6I4q9TIcEYDlHSfWwM1nkwaLjNS/view?usp=sharing Long-term continuous magnetometer data for geomagnetic activity prediction using machine learning]<br />
* Slava Merkin – [https://drive.google.com/file/d/1-nALz_h5IUMtUPPZKGQh3KNHS-GxbBqx/view?usp=sharing What is required of global magnetosphere-ionosphere-thermosphere models to predict ground magnetic perturbations]<br />
<br />
Project Updates<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/15fE4UXOXYYjACtDilek9s1DDd8h9ODho/view?usp=sharing SuperMAG]<br />
* Michelle Salzano, [https://drive.google.com/file/d/12fI2yM-q_fw-4-4cN_8Nsp3oECtohjPh/view?usp=sharing MICA]<br />
* Josh Rigler, [https://drive.google.com/file/d/1aYjQcO-56TyNB0U97bobyRVsu1D05iJo/view?usp=sharing USGS] <br />
* Jennifer Gannon, [https://drive.google.com/file/d/17KkpAGoV1OwOAsi8n6x3fTF2q6xk_CNV/view?usp=sharing MagStar]<br />
* Chuck Smith, [https://drive.google.com/file/d/1VuUgOTyFrrBxuvxmdbJoVgYeyEmAUgIw/view?usp=sharing Space Weather Underground]<br />
* Endawoke Yizengaw, iMAGS<br />
* Peter Chi, [https://drive.google.com/file/d/1CX26PkNjz_8mFhrmqX14ZxE1m8eO-Rw3/view?usp=sharing SMART]<br />
* Mark Moldwin, [https://drive.google.com/file/d/1zrSgS7iImyWW7rlXWtqheU4gWOLUS3LW/view?usp=sharing New Ground Mag and TEC/GPS system]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1thUuT5pZqMjWI4xR5ytT8IvXSRpBl72c/view?usp=sharing MACCS]<br />
* Don Hampton, [https://drive.google.com/file/d/1DQyBge17GT9r7Vjvjp5LYXio9yGUkLnU/view?usp=sharing GIMA]<br />
* Hyomin Kim, AGO<br />
* Mike Hartinger, [https://drive.google.com/file/d/1OArNCvEEsFdXwi7qmz9_WNQskhcRqBGW/view?usp=sharing AALPIP]<br />
<br />
== February 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research ==<br />
<br />
Thursday, 4 February, 1100-1230 US Eastern Time<br />
<br />
This virtual meeting will begin with an invited talk from Gary Egbert on current/future applications of ground magnetometers to geophysics research, including magnetotellurics research relevant to Heliophysics/GIC. This continues a series of discussions intended to gather feedback for the upcoming Heliophysics Decadal Survey.<br />
<br />
The rest of the meeting will be for updates from SuperMAG and individual magnetometer networks, NSF announcements, and discussion of magnetometer digital object identifiers.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
[https://agu.confex.com/agu/fm20/meetingapp.cgi/Paper/685551 Link] to Gary Egbert's 2020 AGU presentation, "Modeling Diurnal Variation Magnetic Fields for Mantle Induction Studies"<br />
<br />
* 1100-1105 Mike Hartinger, [https://drive.google.com/file/d/1FQUYC_Q0F3I97RAYrOsCN_piy9cu8OcG/view?usp=sharing Introduction and Updates on Digital Object Identifiers]<br />
* 1105-1125 Gary Egbert, [https://drive.google.com/file/d/1fvp4QiW5BpPxtlmopLaPxKp-x9SUX2Wx/view?usp=sharing Current and Future Applications of Ground Magnetometers to Geophysics Research]<br />
* 1125-1135 Jennifer Gannon, [https://drive.google.com/file/d/1AL3NasABl5eDSE-Gh71-MTcR8BuG-PpH/view?usp=sharing MagStar]<br />
* 1135-1145 Josh Rigler / Anna Kelbert, USGS Updates<br />
* 1145-1155 Whitham Reeve, [https://drive.google.com/file/d/1TUetaa2wE7W_b2-h0v3q287B0h6F8LzA/view?usp=sharing SAM-III]<br />
* 1155-1205 Rob Barnes / Matt Potter, [https://drive.google.com/file/d/1xXunj9lafw2m5C3AdDBHi6ZqTPpU-Jtf/view?usp=sharing SuperMAG Updates]<br />
* 1205-1215 [https://drive.google.com/file/d/1YDZB7mhG8rZS5EqzRIax4AvCL2wmm6q7/view?usp=sharing Collaboration tools and NSF opportunities]<br />
* 1215-1230 Additional Brief Project Updates: [https://drive.google.com/file/d/1R-SetUGvFfZyA0emtZtOxZ3WbjXXF2BN/view?usp=sharing MICA], [https://drive.google.com/file/d/1Z62YCvAGkvF2lJmHLAJOG3qtlFvYs09P/view?usp=sharing MACCS], [https://drive.google.com/file/d/1THwB7Cq0K5hhPhY_3BRh9R724FwXssD-/view?usp=sharing NJIT], [https://drive.google.com/file/d/17XYtKyofyw_1uRc1T69K2l7Qxiiccyau/view?usp=sharing AALPIP]<br />
<br />
== July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey ==<br />
<br />
Thursday, 8 July, 1200-1330 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey. The discussion began with several presentations related to open magnetometer science questions and infrastructure. The rest of the meeting was for open discussion on topics for magnetometer-related white papers for the decadal survey.<br />
<br />
[https://drive.google.com/file/d/1yEqAe-CuK0XQBLiP5vsrhEAg3LhRaIui/view?usp=sharing Meeting notes]<br />
<br />
* Mike Hartinger, [https://drive.google.com/file/d/1FVolkY5xVn4DeL_3TFQmLWIpcdl6vKHF/view?usp=sharing Overview of the Meeting, NSF Opportunities]<br />
* Adam Schultz, [https://drive.google.com/file/d/1iVcUlawbmcbkhyVZLdaLp1s-_f8QSKm7/view?usp=sharing Improving Situational Awareness of ground-level EM fields]<br />
* Dan Schneider, [https://drive.google.com/file/d/1KGiHVAEQkynAkKeqYFBwV0ynrrMAetke/view?usp=sharing QuakeFinder: Induction Coil Magnetometer Array]<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/1G4MGyKsbCIdBhNU0e3hoNqeA7HP_uZsD/view?usp=sharing SuperMAG news]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1pNoWfpl8XyaQ5qtKX1nMXJrzaxX3sIkk/view?usp=sharing Unresolved issues in MPE-GIC studies]<br />
<br />
== October 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (1) ==<br />
<br />
Thursday, 19 October, 1400-1530 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July 2021. This was a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== February 2022 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (2) ==<br />
<br />
Monday, 7 February, 1600-1700 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July and October 2021. The meeting started with a [https://drive.google.com/file/d/1TAjZPnhS60InWkukMMrVQh4rxzeZo0hd/view?usp=sharing presentation] discussing upcoming meetings and other announcements related to the Decadal Survey as well as plans for an over-arching ground magnetometer white paper. The remaining time was for a free flowing discussion to add background material for ground magnetometer white papers to a google doc.</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=US_Ground-based_magnetometer_arrays&diff=5544US Ground-based magnetometer arrays2022-02-07T17:21:34Z<p>Mdhartin: </p>
<hr />
<div>=== US Ground Magnetometer Board ===<br />
<br />
This wiki page and related ground magnetometer board meetings are part of a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts. For more information about the current state and future of ground magnetometer networks in support of space weather monitoring and research, see this article in [https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017SW001718 Space Weather]. <br />
<br />
''Current Ground Magnetometer Board Members:''<br />
* Peter Chi<br />
* Mark Engebretson, (former chair)<br />
* Jennifer Gannon<br />
* Jesper Gjerloev<br />
* Michael Hartinger, (current chair, mhartinger@spacescience.org)<br />
* Hyomin Kim<br />
* Gang Lu<br />
* Josh Rigler<br />
* Michelle Salzano<br />
* Howard Singer<br />
* Endawoke Yizengaw<br />
<br />
''Former Ground Magnetometer Board Members:''<br />
* Carol Finn<br />
* Efthyia Zesta<br />
<br />
=== US-Sponsored Ground-Based Magnetometer Arrays and Programs* ===<br />
<br />
{| class="wikitable" style="width: 50%; height: 4em;"<br />
|-<br />
| Array || Location || Instruments || Manufacturer || No. of Locations<br />
|-<br />
| AAL-PIP || Antarctica || Fluxgate || Lviv Centre ISR || 6<br />
|-<br />
| AAL-PIP || Antarctica || Induction Coil || UNH || 4<br />
|-<br />
| AMBER || Africa || Fluxgate || UCLA || 7<br />
|-<br />
| AMBER || South America || Fluxgate || UCLA || 2<br />
|-<br />
| AMBER || East Asia || Fluxgate || UCLA || 4<br />
|-<br />
| Falcon || Continental US || Fluxgate || UCLA || 11<br />
|-<br />
| GIMA || Alaska || Fluxgate || Narod || 9<br />
|-<br />
| Jicamarca || South America || Fluxgate || UCLA || 2<br />
|-<br />
| LISN || South America || Fluxgate || Custom/Jicamarca || 6<br />
|-<br />
| MACCS || Arctic Canada || Fluxgate || Narod || 8<br />
|-<br />
| McMAC || Continental US & Mexico || Fluxgate || UCLA || 9<br />
|-<br />
| MEASURE || Continental US || Fluxgate || UCLA || 6<br />
|-<br />
| SAMBA || South America & Antarctica || Fluxgate || UCLA || 12<br />
|-<br />
| THEMIS || Continental US & Canada || Fluxgate || UCLA || 24<br />
|-<br />
| US Geological Survey || US & Territories || Fluxgate || Narod, Technical Univ of Denmark || 11<br />
|-<br />
| NJIT / AGO || Antarctica || Fluxgate || Bell Labs || 7<br />
|-<br />
| NJIT / AGO || Antarctica || Induction Coil || Tohoku University || 5<br />
|-<br />
| MICA || Antarctica || Induction Coil || UNH || 5<br />
|-<br />
| MICA || Arctic Canada || Induction Coil || UNH || 4<br />
|-<br />
| MICA || Svalbard || Induction Coil || UNH || 4<br />
|}<br />
<br />
*Some locations listed here have instruments that are not currently operating.<br />
<br />
=== Ground Magnetometer Data ===<br />
<br />
[http://supermag.jhuapl.edu/ SuperMAG]<br />
<br />
[https://www.usgs.gov/natural-hazards/geomagnetism/data-tools USGS Geomagnetism Program]<br />
<br />
[https://www.intermagnet.org/ INTERMAGNET]<br />
<br />
[http://vmo.igpp.ucla.edu/data1/SECS/Quicklook/ Spherical Elementary Currents] from James Weygand<br />
<br />
[http://themis.ssl.berkeley.edu/gmag/gmag_list.php?selyear=4000&selmonth=13&smap=on&sinfo=on&saelist=on&ae=on THEMIS]<br />
<br />
[https://cdaweb.gsfc.nasa.gov/index.html/ NASA CDAWeb]<br />
<br />
[http://mirl.unh.edu/ulf_status.html UNH Magnetic Induction Coil Array (MICA)]<br />
<br />
[http://search.iugonet.org/list.jsp IUGONET]<br />
<br />
=== Digital Object Identifiers for Ground Magnetometer Data ===<br />
<br />
Digital Object Identifiers (DOI) allow authors to cite data products just as they refer to papers. This is becoming a requirement of many journals, as it assures that the specific data used in a publication are findable and accessible. The DOI provides a permanent identifier (PID) for the data, remaining unchanged even if the data are moved to another archive. The "creators" (authors) of the data must link the DOI to a "landing page" that provides details about the data and methods for accessing them. Our group recommends that each ground magnetometer network generate DOIs for their datasets, at minimum one DOI for their original measurements (i.e., before filtering and other types of processing are performed).<br />
<br />
As a member of the [https://datacite.org DataCite organization], NASA Heliophysics (HP) can "mint" DOIs for ground magnetometer datasets. NASA HP is providing an easy means to assign DOIs to datasets using the HP Digital Resource Registry (HDRR) by providing landing pages for datasets based on their "SPASE" resource descriptions. As an example, any users of NASA's OMNI dataset can now use https://doi.org/10.48322/1shr-ht18 for the hourly dataset, and other DOIs for other sets, discoverable by a search with the Heliophysics Data Portal (HDP; https://heliophysicsdata.gsfc.nasa.gov; look for "omni" in the "observatory" entry at the left). More details for DOI initiation for resources in the HDP can be found [https://hpde.gsfc.nasa.gov/DOI_Initiative_October_2020.pdf here]. For further information, and especially to start the process of registering DOIs, contact James Weygand (jweygand@igpp.ucla.edu or jweygand@epss.ucla.edu).<br />
<br />
As noted above, a SPASE resource description is required for each magnetometer dataset to mint a DOI. Here's an example for the [https://drive.google.com/file/d/1MxEDFAa_grGuCdID9vwK9pRzkzH7FQYR/view?usp=sharing MACCS magnetometer network 5s measurements].<br />
<br />
== 2019 GEM workshop meeting ==<br />
<br />
The ground magnetometer advisory board was formed in 2016 as a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts.<br />
<br />
We invite the GEM community to attend our meeting on Monday, June 24 at 1:30 PM, where we’ll discuss updates on all the above items. Later this year, we’ll add new members to the advisory board who either operate ground magnetometers or use magnetometer data to support their scientific investigations and/or space weather monitoring efforts. If you’re interested in learning more about this opportunity, please attend this GEM meeting or contact Mike Hartinger (mdhartin@vt.edu).<br />
<br />
Monday, 24 June, 1:30 PM, Location: Santa Fe<br />
*Mike Hartinger - Updates on ground magnetometer advisory board activities<br />
*Mark Engebretson - Summary of information gathering report<br />
*Lisa Winter - NSF updates<br />
*Hyomin Kim - DRUM/DASI updates and future plans, discussion<br />
*Jesper Gjerloev - SuperMAG updates<br />
*Josh Rigler - USGS updates, updates from other magnetometer arrays<br />
<br />
== 2019 mini-GEM workshop meeting ==<br />
<br />
Sunday, 8 December, 1200-1330, Location: Oregon Room<br />
*Mike Hartinger - [https://drive.google.com/file/d/1f3nDkQU4Red2gBLe_I5z_z0LOTHRyfN8/view?usp=sharing Introduction and Overview of Advisory Board activities, updates on DOI and new instruments]<br />
*Howard Singer - [https://drive.google.com/file/d/16poHzPvIM60z9Z7E_qXHznRGL80cjRRY/view?usp=sharing How ground magnetometers are currently incorporated into forecasts at SWPC, how they could be incorporated in the future]<br />
*Jennifer Gannon - How ground magnetometers can best be used to monitor/investigate GIC, utility-grade magnetometers<br />
*Endawoke Yizengaw - Open discussion with NSF, DRUM/DASI future proposal plans<br />
*Anna Kelbert - [https://drive.google.com/open?id=1XFHxruhasIRvZ3JDGtVtExZE6d87tM0X USGS Geomagnetism Program updates]<br />
*Peter Chi - update on ULTIMA activities / international collaboration<br />
*James Weygand - [https://drive.google.com/open?id=1Uq5ArdynNUk6ymbrBAcbFU9zbzH1eD3t Spherical Elementary Currents and Mid/Low Latitude Data Availability]<br />
*Walk-ins TBD (Amy Keesee/Mike Coughlin,...)<br />
<br />
<br />
== August 2020 Virtual Discussion: Ground Magnetometer Measurements for Heliophysics Research and Space Weather Monitoring ==<br />
<br />
Friday, 7 August, 1500-1630 EDT<br />
<br />
[https://drive.google.com/file/d/1uQ18wVmQC9de6zGn8wXVmXHvkomQPP63/view?usp=sharing Meeting Summary and Community Feedback from Google Form]<br />
<br />
Discussion from this meeting and previous meetings was summarized in this [https://drive.google.com/file/d/1-lrglV9h7OneMK8XK0yjnPk3XhhMMMNg/view?usp=sharing Heliophysics 2050 white paper].<br />
<br />
Invited Speakers<br />
* Syau-Yun Hsieh – [https://drive.google.com/file/d/1nRB6Xjc8F4tyGDtFHSoH6Tr3Kxh8hnkq/view?usp=sharing SMILE mission ground-based support]<br />
* Enrico Camporeale – [https://drive.google.com/file/d/1JiQTM6I4q9TIcEYDlHSfWwM1nkwaLjNS/view?usp=sharing Long-term continuous magnetometer data for geomagnetic activity prediction using machine learning]<br />
* Slava Merkin – [https://drive.google.com/file/d/1-nALz_h5IUMtUPPZKGQh3KNHS-GxbBqx/view?usp=sharing What is required of global magnetosphere-ionosphere-thermosphere models to predict ground magnetic perturbations]<br />
<br />
Project Updates<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/15fE4UXOXYYjACtDilek9s1DDd8h9ODho/view?usp=sharing SuperMAG]<br />
* Michelle Salzano, [https://drive.google.com/file/d/12fI2yM-q_fw-4-4cN_8Nsp3oECtohjPh/view?usp=sharing MICA]<br />
* Josh Rigler, [https://drive.google.com/file/d/1aYjQcO-56TyNB0U97bobyRVsu1D05iJo/view?usp=sharing USGS] <br />
* Jennifer Gannon, [https://drive.google.com/file/d/17KkpAGoV1OwOAsi8n6x3fTF2q6xk_CNV/view?usp=sharing MagStar]<br />
* Chuck Smith, [https://drive.google.com/file/d/1VuUgOTyFrrBxuvxmdbJoVgYeyEmAUgIw/view?usp=sharing Space Weather Underground]<br />
* Endawoke Yizengaw, iMAGS<br />
* Peter Chi, [https://drive.google.com/file/d/1CX26PkNjz_8mFhrmqX14ZxE1m8eO-Rw3/view?usp=sharing SMART]<br />
* Mark Moldwin, [https://drive.google.com/file/d/1zrSgS7iImyWW7rlXWtqheU4gWOLUS3LW/view?usp=sharing New Ground Mag and TEC/GPS system]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1thUuT5pZqMjWI4xR5ytT8IvXSRpBl72c/view?usp=sharing MACCS]<br />
* Don Hampton, [https://drive.google.com/file/d/1DQyBge17GT9r7Vjvjp5LYXio9yGUkLnU/view?usp=sharing GIMA]<br />
* Hyomin Kim, AGO<br />
* Mike Hartinger, [https://drive.google.com/file/d/1OArNCvEEsFdXwi7qmz9_WNQskhcRqBGW/view?usp=sharing AALPIP]<br />
<br />
== February 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research ==<br />
<br />
Thursday, 4 February, 1100-1230 US Eastern Time<br />
<br />
This virtual meeting will begin with an invited talk from Gary Egbert on current/future applications of ground magnetometers to geophysics research, including magnetotellurics research relevant to Heliophysics/GIC. This continues a series of discussions intended to gather feedback for the upcoming Heliophysics Decadal Survey.<br />
<br />
The rest of the meeting will be for updates from SuperMAG and individual magnetometer networks, NSF announcements, and discussion of magnetometer digital object identifiers.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
[https://agu.confex.com/agu/fm20/meetingapp.cgi/Paper/685551 Link] to Gary Egbert's 2020 AGU presentation, "Modeling Diurnal Variation Magnetic Fields for Mantle Induction Studies"<br />
<br />
* 1100-1105 Mike Hartinger, [https://drive.google.com/file/d/1FQUYC_Q0F3I97RAYrOsCN_piy9cu8OcG/view?usp=sharing Introduction and Updates on Digital Object Identifiers]<br />
* 1105-1125 Gary Egbert, [https://drive.google.com/file/d/1fvp4QiW5BpPxtlmopLaPxKp-x9SUX2Wx/view?usp=sharing Current and Future Applications of Ground Magnetometers to Geophysics Research]<br />
* 1125-1135 Jennifer Gannon, [https://drive.google.com/file/d/1AL3NasABl5eDSE-Gh71-MTcR8BuG-PpH/view?usp=sharing MagStar]<br />
* 1135-1145 Josh Rigler / Anna Kelbert, USGS Updates<br />
* 1145-1155 Whitham Reeve, [https://drive.google.com/file/d/1TUetaa2wE7W_b2-h0v3q287B0h6F8LzA/view?usp=sharing SAM-III]<br />
* 1155-1205 Rob Barnes / Matt Potter, [https://drive.google.com/file/d/1xXunj9lafw2m5C3AdDBHi6ZqTPpU-Jtf/view?usp=sharing SuperMAG Updates]<br />
* 1205-1215 [https://drive.google.com/file/d/1YDZB7mhG8rZS5EqzRIax4AvCL2wmm6q7/view?usp=sharing Collaboration tools and NSF opportunities]<br />
* 1215-1230 Additional Brief Project Updates: [https://drive.google.com/file/d/1R-SetUGvFfZyA0emtZtOxZ3WbjXXF2BN/view?usp=sharing MICA], [https://drive.google.com/file/d/1Z62YCvAGkvF2lJmHLAJOG3qtlFvYs09P/view?usp=sharing MACCS], [https://drive.google.com/file/d/1THwB7Cq0K5hhPhY_3BRh9R724FwXssD-/view?usp=sharing NJIT], [https://drive.google.com/file/d/17XYtKyofyw_1uRc1T69K2l7Qxiiccyau/view?usp=sharing AALPIP]<br />
<br />
== July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey ==<br />
<br />
Thursday, 8 July, 1200-1330 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey. The discussion began with several presentations related to open magnetometer science questions and infrastructure. The rest of the meeting was for open discussion on topics for magnetometer-related white papers for the decadal survey.<br />
<br />
[https://drive.google.com/file/d/1yEqAe-CuK0XQBLiP5vsrhEAg3LhRaIui/view?usp=sharing Meeting notes]<br />
<br />
* Mike Hartinger, [https://drive.google.com/file/d/1FVolkY5xVn4DeL_3TFQmLWIpcdl6vKHF/view?usp=sharing Overview of the Meeting, NSF Opportunities]<br />
* Adam Schultz, [https://drive.google.com/file/d/1iVcUlawbmcbkhyVZLdaLp1s-_f8QSKm7/view?usp=sharing Improving Situational Awareness of ground-level EM fields]<br />
* Dan Schneider, [https://drive.google.com/file/d/1KGiHVAEQkynAkKeqYFBwV0ynrrMAetke/view?usp=sharing QuakeFinder: Induction Coil Magnetometer Array]<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/1G4MGyKsbCIdBhNU0e3hoNqeA7HP_uZsD/view?usp=sharing SuperMAG news]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1pNoWfpl8XyaQ5qtKX1nMXJrzaxX3sIkk/view?usp=sharing Unresolved issues in MPE-GIC studies]<br />
<br />
== October 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (1) ==<br />
<br />
Thursday, 19 October, 1400-1530 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July 2021. This was a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
== February 2022 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (2) ==<br />
<br />
Monday, 7 February, 1600-1700 US Eastern Time<br />
<br />
This virtual meeting is focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July and October 2021.</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=US_Ground-based_magnetometer_arrays&diff=5543US Ground-based magnetometer arrays2022-02-07T17:21:16Z<p>Mdhartin: </p>
<hr />
<div>=== US Ground Magnetometer Board ===<br />
<br />
This wiki page and related ground magnetometer board meetings are part of a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts. For more information about the current state and future of ground magnetometer networks in support of space weather monitoring and research, see this article in [https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017SW001718 Space Weather]. <br />
<br />
''Current Ground Magnetometer Board Members:''<br />
* Peter Chi<br />
* Mark Engebretson, (former chair)<br />
* Jennifer Gannon<br />
* Jesper Gjerloev<br />
* Michael Hartinger, (current chair, mhartinger@spacescience.org)<br />
* Hyomin Kim<br />
* Gang Lu<br />
* Josh Rigler<br />
* Michelle Salzano<br />
* Howard Singer<br />
* Endawoke Yizengaw<br />
<br />
''Former Ground Magnetometer Board Members:''<br />
* Carol Finn<br />
* Efthyia Zesta<br />
<br />
=== US-Sponsored Ground-Based Magnetometer Arrays and Programs* ===<br />
<br />
{| class="wikitable" style="width: 50%; height: 4em;"<br />
|-<br />
| Array || Location || Instruments || Manufacturer || No. of Locations<br />
|-<br />
| AAL-PIP || Antarctica || Fluxgate || Lviv Centre ISR || 6<br />
|-<br />
| AAL-PIP || Antarctica || Induction Coil || UNH || 4<br />
|-<br />
| AMBER || Africa || Fluxgate || UCLA || 7<br />
|-<br />
| AMBER || South America || Fluxgate || UCLA || 2<br />
|-<br />
| AMBER || East Asia || Fluxgate || UCLA || 4<br />
|-<br />
| Falcon || Continental US || Fluxgate || UCLA || 11<br />
|-<br />
| GIMA || Alaska || Fluxgate || Narod || 9<br />
|-<br />
| Jicamarca || South America || Fluxgate || UCLA || 2<br />
|-<br />
| LISN || South America || Fluxgate || Custom/Jicamarca || 6<br />
|-<br />
| MACCS || Arctic Canada || Fluxgate || Narod || 8<br />
|-<br />
| McMAC || Continental US & Mexico || Fluxgate || UCLA || 9<br />
|-<br />
| MEASURE || Continental US || Fluxgate || UCLA || 6<br />
|-<br />
| SAMBA || South America & Antarctica || Fluxgate || UCLA || 12<br />
|-<br />
| THEMIS || Continental US & Canada || Fluxgate || UCLA || 24<br />
|-<br />
| US Geological Survey || US & Territories || Fluxgate || Narod, Technical Univ of Denmark || 11<br />
|-<br />
| NJIT / AGO || Antarctica || Fluxgate || Bell Labs || 7<br />
|-<br />
| NJIT / AGO || Antarctica || Induction Coil || Tohoku University || 5<br />
|-<br />
| MICA || Antarctica || Induction Coil || UNH || 5<br />
|-<br />
| MICA || Arctic Canada || Induction Coil || UNH || 4<br />
|-<br />
| MICA || Svalbard || Induction Coil || UNH || 4<br />
|}<br />
<br />
*Some locations listed here have instruments that are not currently operating.<br />
<br />
=== Ground Magnetometer Data ===<br />
<br />
[http://supermag.jhuapl.edu/ SuperMAG]<br />
<br />
[https://www.usgs.gov/natural-hazards/geomagnetism/data-tools USGS Geomagnetism Program]<br />
<br />
[https://www.intermagnet.org/ INTERMAGNET]<br />
<br />
[http://vmo.igpp.ucla.edu/data1/SECS/Quicklook/ Spherical Elementary Currents] from James Weygand<br />
<br />
[http://themis.ssl.berkeley.edu/gmag/gmag_list.php?selyear=4000&selmonth=13&smap=on&sinfo=on&saelist=on&ae=on THEMIS]<br />
<br />
[https://cdaweb.gsfc.nasa.gov/index.html/ NASA CDAWeb]<br />
<br />
[http://mirl.unh.edu/ulf_status.html UNH Magnetic Induction Coil Array (MICA)]<br />
<br />
[http://search.iugonet.org/list.jsp IUGONET]<br />
<br />
=== Digital Object Identifiers for Ground Magnetometer Data ===<br />
<br />
Digital Object Identifiers (DOI) allow authors to cite data products just as they refer to papers. This is becoming a requirement of many journals, as it assures that the specific data used in a publication are findable and accessible. The DOI provides a permanent identifier (PID) for the data, remaining unchanged even if the data are moved to another archive. The "creators" (authors) of the data must link the DOI to a "landing page" that provides details about the data and methods for accessing them. Our group recommends that each ground magnetometer network generate DOIs for their datasets, at minimum one DOI for their original measurements (i.e., before filtering and other types of processing are performed).<br />
<br />
As a member of the [https://datacite.org DataCite organization], NASA Heliophysics (HP) can "mint" DOIs for ground magnetometer datasets. NASA HP is providing an easy means to assign DOIs to datasets using the HP Digital Resource Registry (HDRR) by providing landing pages for datasets based on their "SPASE" resource descriptions. As an example, any users of NASA's OMNI dataset can now use https://doi.org/10.48322/1shr-ht18 for the hourly dataset, and other DOIs for other sets, discoverable by a search with the Heliophysics Data Portal (HDP; https://heliophysicsdata.gsfc.nasa.gov; look for "omni" in the "observatory" entry at the left). More details for DOI initiation for resources in the HDP can be found [https://hpde.gsfc.nasa.gov/DOI_Initiative_October_2020.pdf here]. For further information, and especially to start the process of registering DOIs, contact James Weygand (jweygand@igpp.ucla.edu or jweygand@epss.ucla.edu).<br />
<br />
As noted above, a SPASE resource description is required for each magnetometer dataset to mint a DOI. Here's an example for the [https://drive.google.com/file/d/1MxEDFAa_grGuCdID9vwK9pRzkzH7FQYR/view?usp=sharing MACCS magnetometer network 5s measurements].<br />
<br />
== 2019 GEM workshop meeting ==<br />
<br />
The ground magnetometer advisory board was formed in 2016 as a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts.<br />
<br />
We invite the GEM community to attend our meeting on Monday, June 24 at 1:30 PM, where we’ll discuss updates on all the above items. Later this year, we’ll add new members to the advisory board who either operate ground magnetometers or use magnetometer data to support their scientific investigations and/or space weather monitoring efforts. If you’re interested in learning more about this opportunity, please attend this GEM meeting or contact Mike Hartinger (mdhartin@vt.edu).<br />
<br />
Monday, 24 June, 1:30 PM, Location: Santa Fe<br />
*Mike Hartinger - Updates on ground magnetometer advisory board activities<br />
*Mark Engebretson - Summary of information gathering report<br />
*Lisa Winter - NSF updates<br />
*Hyomin Kim - DRUM/DASI updates and future plans, discussion<br />
*Jesper Gjerloev - SuperMAG updates<br />
*Josh Rigler - USGS updates, updates from other magnetometer arrays<br />
<br />
== 2019 mini-GEM workshop meeting ==<br />
<br />
Sunday, 8 December, 1200-1330, Location: Oregon Room<br />
*Mike Hartinger - [https://drive.google.com/file/d/1f3nDkQU4Red2gBLe_I5z_z0LOTHRyfN8/view?usp=sharing Introduction and Overview of Advisory Board activities, updates on DOI and new instruments]<br />
*Howard Singer - [https://drive.google.com/file/d/16poHzPvIM60z9Z7E_qXHznRGL80cjRRY/view?usp=sharing How ground magnetometers are currently incorporated into forecasts at SWPC, how they could be incorporated in the future]<br />
*Jennifer Gannon - How ground magnetometers can best be used to monitor/investigate GIC, utility-grade magnetometers<br />
*Endawoke Yizengaw - Open discussion with NSF, DRUM/DASI future proposal plans<br />
*Anna Kelbert - [https://drive.google.com/open?id=1XFHxruhasIRvZ3JDGtVtExZE6d87tM0X USGS Geomagnetism Program updates]<br />
*Peter Chi - update on ULTIMA activities / international collaboration<br />
*James Weygand - [https://drive.google.com/open?id=1Uq5ArdynNUk6ymbrBAcbFU9zbzH1eD3t Spherical Elementary Currents and Mid/Low Latitude Data Availability]<br />
*Walk-ins TBD (Amy Keesee/Mike Coughlin,...)<br />
<br />
<br />
== August 2020 Virtual Discussion: Ground Magnetometer Measurements for Heliophysics Research and Space Weather Monitoring ==<br />
<br />
Friday, 7 August, 1500-1630 EDT<br />
<br />
[https://drive.google.com/file/d/1uQ18wVmQC9de6zGn8wXVmXHvkomQPP63/view?usp=sharing Meeting Summary and Community Feedback from Google Form]<br />
<br />
Discussion from this meeting and previous meetings was summarized in this [https://drive.google.com/file/d/1-lrglV9h7OneMK8XK0yjnPk3XhhMMMNg/view?usp=sharing Heliophysics 2050 white paper].<br />
<br />
Invited Speakers<br />
* Syau-Yun Hsieh – [https://drive.google.com/file/d/1nRB6Xjc8F4tyGDtFHSoH6Tr3Kxh8hnkq/view?usp=sharing SMILE mission ground-based support]<br />
* Enrico Camporeale – [https://drive.google.com/file/d/1JiQTM6I4q9TIcEYDlHSfWwM1nkwaLjNS/view?usp=sharing Long-term continuous magnetometer data for geomagnetic activity prediction using machine learning]<br />
* Slava Merkin – [https://drive.google.com/file/d/1-nALz_h5IUMtUPPZKGQh3KNHS-GxbBqx/view?usp=sharing What is required of global magnetosphere-ionosphere-thermosphere models to predict ground magnetic perturbations]<br />
<br />
Project Updates<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/15fE4UXOXYYjACtDilek9s1DDd8h9ODho/view?usp=sharing SuperMAG]<br />
* Michelle Salzano, [https://drive.google.com/file/d/12fI2yM-q_fw-4-4cN_8Nsp3oECtohjPh/view?usp=sharing MICA]<br />
* Josh Rigler, [https://drive.google.com/file/d/1aYjQcO-56TyNB0U97bobyRVsu1D05iJo/view?usp=sharing USGS] <br />
* Jennifer Gannon, [https://drive.google.com/file/d/17KkpAGoV1OwOAsi8n6x3fTF2q6xk_CNV/view?usp=sharing MagStar]<br />
* Chuck Smith, [https://drive.google.com/file/d/1VuUgOTyFrrBxuvxmdbJoVgYeyEmAUgIw/view?usp=sharing Space Weather Underground]<br />
* Endawoke Yizengaw, iMAGS<br />
* Peter Chi, [https://drive.google.com/file/d/1CX26PkNjz_8mFhrmqX14ZxE1m8eO-Rw3/view?usp=sharing SMART]<br />
* Mark Moldwin, [https://drive.google.com/file/d/1zrSgS7iImyWW7rlXWtqheU4gWOLUS3LW/view?usp=sharing New Ground Mag and TEC/GPS system]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1thUuT5pZqMjWI4xR5ytT8IvXSRpBl72c/view?usp=sharing MACCS]<br />
* Don Hampton, [https://drive.google.com/file/d/1DQyBge17GT9r7Vjvjp5LYXio9yGUkLnU/view?usp=sharing GIMA]<br />
* Hyomin Kim, AGO<br />
* Mike Hartinger, [https://drive.google.com/file/d/1OArNCvEEsFdXwi7qmz9_WNQskhcRqBGW/view?usp=sharing AALPIP]<br />
<br />
== February 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research ==<br />
<br />
Thursday, 4 February, 1100-1230 US Eastern Time<br />
<br />
This virtual meeting will begin with an invited talk from Gary Egbert on current/future applications of ground magnetometers to geophysics research, including magnetotellurics research relevant to Heliophysics/GIC. This continues a series of discussions intended to gather feedback for the upcoming Heliophysics Decadal Survey.<br />
<br />
The rest of the meeting will be for updates from SuperMAG and individual magnetometer networks, NSF announcements, and discussion of magnetometer digital object identifiers.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
[https://agu.confex.com/agu/fm20/meetingapp.cgi/Paper/685551 Link] to Gary Egbert's 2020 AGU presentation, "Modeling Diurnal Variation Magnetic Fields for Mantle Induction Studies"<br />
<br />
* 1100-1105 Mike Hartinger, [https://drive.google.com/file/d/1FQUYC_Q0F3I97RAYrOsCN_piy9cu8OcG/view?usp=sharing Introduction and Updates on Digital Object Identifiers]<br />
* 1105-1125 Gary Egbert, [https://drive.google.com/file/d/1fvp4QiW5BpPxtlmopLaPxKp-x9SUX2Wx/view?usp=sharing Current and Future Applications of Ground Magnetometers to Geophysics Research]<br />
* 1125-1135 Jennifer Gannon, [https://drive.google.com/file/d/1AL3NasABl5eDSE-Gh71-MTcR8BuG-PpH/view?usp=sharing MagStar]<br />
* 1135-1145 Josh Rigler / Anna Kelbert, USGS Updates<br />
* 1145-1155 Whitham Reeve, [https://drive.google.com/file/d/1TUetaa2wE7W_b2-h0v3q287B0h6F8LzA/view?usp=sharing SAM-III]<br />
* 1155-1205 Rob Barnes / Matt Potter, [https://drive.google.com/file/d/1xXunj9lafw2m5C3AdDBHi6ZqTPpU-Jtf/view?usp=sharing SuperMAG Updates]<br />
* 1205-1215 [https://drive.google.com/file/d/1YDZB7mhG8rZS5EqzRIax4AvCL2wmm6q7/view?usp=sharing Collaboration tools and NSF opportunities]<br />
* 1215-1230 Additional Brief Project Updates: [https://drive.google.com/file/d/1R-SetUGvFfZyA0emtZtOxZ3WbjXXF2BN/view?usp=sharing MICA], [https://drive.google.com/file/d/1Z62YCvAGkvF2lJmHLAJOG3qtlFvYs09P/view?usp=sharing MACCS], [https://drive.google.com/file/d/1THwB7Cq0K5hhPhY_3BRh9R724FwXssD-/view?usp=sharing NJIT], [https://drive.google.com/file/d/17XYtKyofyw_1uRc1T69K2l7Qxiiccyau/view?usp=sharing AALPIP]<br />
<br />
== July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey ==<br />
<br />
Thursday, 8 July, 1200-1330 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey. The discussion began with several presentations related to open magnetometer science questions and infrastructure. The rest of the meeting was for open discussion on topics for magnetometer-related white papers for the decadal survey.<br />
<br />
[https://drive.google.com/file/d/1yEqAe-CuK0XQBLiP5vsrhEAg3LhRaIui/view?usp=sharing Meeting notes]<br />
<br />
* Mike Hartinger, [https://drive.google.com/file/d/1FVolkY5xVn4DeL_3TFQmLWIpcdl6vKHF/view?usp=sharing Overview of the Meeting, NSF Opportunities]<br />
* Adam Schultz, [https://drive.google.com/file/d/1iVcUlawbmcbkhyVZLdaLp1s-_f8QSKm7/view?usp=sharing Improving Situational Awareness of ground-level EM fields]<br />
* Dan Schneider, [https://drive.google.com/file/d/1KGiHVAEQkynAkKeqYFBwV0ynrrMAetke/view?usp=sharing QuakeFinder: Induction Coil Magnetometer Array]<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/1G4MGyKsbCIdBhNU0e3hoNqeA7HP_uZsD/view?usp=sharing SuperMAG news]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1pNoWfpl8XyaQ5qtKX1nMXJrzaxX3sIkk/view?usp=sharing Unresolved issues in MPE-GIC studies]<br />
<br />
== October 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (1) ==<br />
<br />
Thursday, 19 October, 1400-1530 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July 2021. This was a free flowing discussion to add background material for ground magnetometer white papers to a google doc.<br />
<br />
<br />
== February 2022 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey, continued (2) ==<br />
<br />
Monday, 7 February, 1600-1700 US Eastern Time<br />
<br />
This virtual meeting is focused on gathering feedback for the Solar and Space Physics Decadal Survey, continuing discussion from July and October 2021.</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=FG:_ULF_Wave_Modeling,_Effects,_and_Applications&diff=5519FG: ULF Wave Modeling, Effects, and Applications2022-01-13T22:26:53Z<p>Mdhartin: /* 2021 Mini-GEM */</p>
<hr />
<div>''Focus Group Leaders:''<br />
* Michael Hartinger, Space Science Institute (mhartinger@spacescience.org)<br />
* Kazue Takahashi, Applied Physics Laboratory<br />
* Alexander Drozdov, UCLA<br />
* Maria Usanova, University of Colorado<br />
* Brian Kress, University of Colorado and NOAA-NCEI<br />
* Xueling Shi, Virginia Tech<br />
<br />
Focus Group term: 2016-2021<br />
<br />
Join the discussion on [https://gemworkshop.slack.com/archives/C016U8PA7TJ Slack], including discussion related to the 2020 GEM and 2021 miniGEM meetings.<br />
<br />
== Science Questions ==<br />
Our group aims to address the following broad science questions: What mechanisms excite ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in Magnetosphere-Ionosphere coupling?<br />
<br />
== Focus Group Proposal ==<br />
[http://gem.epss.ucla.edu/mediawiki/FGproposals/Hartinger-UMEA.pdf ULF Wave Modeling, Effects, and Applications (UMEA)] (December 2015)<br />
<br />
== ULF wave modeling challenge ==<br />
<br />
One part of the ULF wave modeling challenge involves running several global MHD simulation codes with identical, idealized solar wind driving conditions (sinusoidal density variation), then comparing the resulting global ULF wave properties and discussing differences in the context of differing boundary conditions, grids, etc. More details can be found here: [http://ccmc.gsfc.nasa.gov/challenges/ULF/ ULF wave modeling challenge at CCMC]<br />
<br />
Another part of the ULF wave modeling challenge involves data-model comparisons during specific events. At the 2017 GEM and mini-GEM meetings several [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing challenge events] were proposed, including two [https://drive.google.com/open?id=1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI 2017 events].<br />
<br />
We have selected the [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing 27-28 May 2017 storm event] for the ULF wave modeling challenge due to favorable solar wind coverage and availability of numerous satellites (MMS, ARASE, THEMIS, RBSP, Cluster, GOES, ...) and ground-based observations for global context and multi-point wave observations. We will be continuously updating this [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing overview presentation] with observation and modeling results. Model output and observations for the challenge event - including global densities from the NURD model - can be obtained [https://drive.google.com/drive/folders/1Bk9vJtbEHd-vSuYqr3UG9NGCqaBn69hw?usp=sharing here]. If you would like to add additional observations/model output to the google drive or overview pdf, please contact the co-chairs.<br />
<br />
CCMC has run several global MHD simulation codes using the driving conditions of the ULF wave challenge event. At the 2019 GEM meeting and future GEM/mini-GEM meetings, we plan data-model comparisons to identify where model/data don't agree and discuss these differences in the context of incorrect boundary conditions (e.g., compare model ionosphere to local PFISR-derived conductivities), missing physics, numerical dissipation, etc. Please contact CCMC/Lutz Rastaetter and model developers before using this simulation output in publications:<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_SWMF_040319_1 Space Weather Modeling Framework simulation], IMF Bx=0 (other parameters as in event). Full 2-day event, 3D output every 15s, virtual ground magnetometer. If you haven't used CCMC visualization tools before, be aware that you shouldn’t submit multiple visualization requests at the same time, as this could crash CCMC server for these large 3D files. Instead, request a batch process or wait for the first visualization request to complete. The easiest/fastest visualization is to follow the link above and scroll down until you see the virtual ground magnetometer and satellites list. Click on the magnetometer/satellite of interest, then select which parameter(s) to display/download. <br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_1 OpenGGCM run 1] – IMF Bx = -7 nT. Smaller time range available on 28 May 0400-1000, only virtual ground magnetometer from POKR/CMO available now. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_1 Full results including virtual satellite.]<br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_2 Open GGCM run 2] – IMF Bx = 0 nT (as in SWMF simulation). Same format as other OpenGGCM simulation. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_2 Full results including virtual satellite.]<br />
<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_LFM_051519_2 LFM simulation]<br />
<br />
== ULF wave HGSO event coordination ==<br />
Our group is helping coordinate analysis of conjunction events for ULF wave studies, including requesting instrument operation modes favorable for ULF wave analysis.<br />
<br />
The [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] 0400-0800 UT conjunction event includes several satellites (THEMIS, Cluster, Van Allen Probes, GOES, Geotail, FIREBIRD, METOP, POES, DMSP) in the pre-midnight sector during a conjunction with the Poker Flat Incoherent Scatter Radar and several SuperDARN radars. PFISR was operating throughout the conjunction, several SuperDARN radars were in high resolution sampling modes, and several satellites were operating in fast survey/burst mode. The conjunction is favorable for modeling and observation studies of magnetosphere-ionosphere coupling via ULF waves, wave-particle interactions, global ULF wave properties, and many other topics. [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing This pdf] summarizes preliminary results<br />
<br />
Several web-based tools are available for identifying future conjunctions, including [https://ergsc.isee.nagoya-u.ac.jp/analysis/index.shtml.en upcoming conjunctions between ARASE and Van Allen Probes/ground] and conjunctions between [https://swarm-aurora.com/conjunctionFinder/ SWARM/all-sky cameras].<br />
<br />
'''There are also many specialized, web-based tools for ULF wave analysis (please contact FG co-chairs to add to this list):'''<br />
<br />
*SuperMAG ground-based magnetometer [http://supermag.jhuapl.edu/rBrowse/?start=2001-01-30T05%3A00%3A00.000Z&step=14400 global ULF wave plots]<br />
<br />
*CARISMA ground-based magnetometer [http://www.carisma.ca/carisma-data/fgm-pc1-power-spectra Pc1 power spectra] and [http://www.carisma.ca/carisma-data/fgm-pc5-power-spectra Pc5 power spectra]<br />
<br />
*Augsburg College/UNH Arctic and Antarctic [http://space.augsburg.edu/searchcoil/index.html search coil magnetometer survey plots] <br />
<br />
*Augsburg College (hosted by ViRBO) [http://virbo.org/Augsburg/ULF ULF wave index]<br />
<br />
*[http://vt.superdarn.org/tiki-index.php?page=DaViT+DynFFT SuperDARN wave analysis] and [http://vt.superdarn.org/tiki-index.php?page=Data+Inventory identification of high time-resolution SuperDARN beams]<br />
<br />
*THEMIS satellite fluxgate magnetometer [http://themis.ssl.berkeley.edu/summary.php?year=2014&month=05&day=11&hour=0024&sumType=thmfgmdyn&type=themislinfgl wave survey plots]<br />
<br />
*National Institute of Polar Research inter-hemispheric comparisons of Syowa/Iceland [http://iugonet0.nipr.ac.jp/web/induction/ induction magnetometer spectra]<br />
<br />
*[http://mist.nianet.org/Satellite_Conjunctions/ Inter-hemispheric comparisons] during satellite conjunctions with Arctic(DTU Space)/Antarctic(Virginia Tech) magnetometers<br />
<br />
*[http://kho.unis.no/uaf_msp.htm Meridian Scanning Photometer plots] from [http://kho.unis.no/ UNIS/Kjell Henriksen Observatory], for context on open-closed boundary and ULF modulation of the aurora<br />
<br />
== Summary Reports for GEM workshops ==<br />
[https://drive.google.com/file/d/1QLH8FcKm3-f25aLwoetOuYJGZu5sPgN3/view?usp=sharing 2016 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1SRIv6Gn-NNnqGPHGvjvZQcdDml2GQpv_/view?usp=sharing 2017 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1clzFHWrxC9hvYf9kECJx4bPn9xn8WwsG/view?usp=sharing 2018 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1_fLwZFCLBTBHnq8HkaFPWUvaIY81E-t0/view?usp=sharing 2019 UMEA FG report]<br />
<br />
== 2016 Mini-GEM schedule ==<br />
UMEA will hold one session at the [http://www.cpe.vt.edu/gem-mini/ mini-GEM workshop]: ULF wave modeling, effects and applications updates<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 11, 2016<br />
<br />
'''Location''': Oregon Room, Holiday Inn Golden Gateway<br />
<br />
'''Schedule:'''<br />
<br />
'''First Half (12:00 – 12:45): 3 talks (~15 min each):'''<br />
<br />
*1. Mike Hartinger -- [http://gem.epss.ucla.edu/mediawikiwiki/images/7/7c/UMEAoverview_miniGEM2016.pdf Overview of UMEA current activities, discussion of future plans]<br />
<br />
*2. Lutz Rastaetter -- ULF wave modeling challenge at CCMC<br />
<br />
*3. Robert Rankin -- Modeling the global properties and ground-based signatures of ULF waves and wave-particle interactions<br />
<br />
'''Second Half (12:45 – 13:30): (5 minutes each, 1-2 slides, order of talks may change):'''<br />
<br />
*1. Xueling Shi -- SuperDARN THEMIS Mode Data Tracker & ULF Wave Detection<br />
<br />
*2. Richard Denton -- Mass density inferred from Alfven wave frequencies measured by RBSP<br />
<br />
*3. Lars Daldorff -- ULF waves, particle transport and energization in global MHD simulations with plasmasphere<br />
<br />
*4. Alexander Drozdov -- Dependence of radiation belt simulations to assumed radial diffusion rates tested for two empirical models of radial transport<br />
<br />
*5. Bob Lysak -- Quarter Wavelength Modes<br />
<br />
*6. Walk-ins<br />
<br />
== 2017 GEM meeting schedule ==<br />
UMEA will hold four sessions session at the 2017 GEM meeting<br />
<br />
'''UMEA Update and plans, general discussion of ULF wave modeling and observations''': 10:30-12:15, Monday, June 19, Port VI-VIII<br />
<br />
*1. Michael Hartinger -- [https://drive.google.com/file/d/0B57bC_V89WW6dnBCbmFFSkFURUk/view?usp=sharing UMEA update]<br />
<br />
*2. Toshi Nishimura -- PFISR measurements during the 2 May 2017 HGSO event<br />
<br />
*3. Xueling Shi -- [https://drive.google.com/file/d/0B57bC_V89WW6OUcyNGNWM0piWnc/view?usp=sharing A Survey of Ionospheric ULF Wave Signatures in SuperDARN Data: Occurrence Statistics and Driving Mechanisms]<br />
<br />
*4. Tetsuo Motoba -- Dayside Auroral Pulsations<br />
<br />
*5. Brian Kress and Rob Redmon -- Newly Available GOES 8-16 Particle and Magnetic Field Measurements<br />
<br />
*6. Dick Wolf -- Theory of magnetospheric buoyancy waves<br />
<br />
<br />
'''ULF wave interactions with the radiation belt and ring current populations''': 1:30-3:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Rualdo Soto-Chavez -- Generation of Pc5-ULF wave by the drift-mirror instability<br />
<br />
*2. Zhiyang Xia -- [https://drive.google.com/file/d/0B57bC_V89WW6Y1VQRXJKd3Qya3c/view?usp=sharing Eigenmode analysis of compressional poloidal modes in a self-consistent magnetic field]<br />
<br />
*3. Mark Engebretson -- [https://drive.google.com/file/d/0B57bC_V89WW6QlM3LU9lTVVwZ1E/view?usp=sharing Statistical study of the upper frequency cutoff of helium band EMIC waves observed by the Van Allen Probes]<br />
<br />
*4. Alexander Drozdov -- Radial diffusion and EMIC waves in the long-term simulation and in the case study<br />
<br />
*5. Seth Claudepierre -- Global MHD simulations driven by idealized Alfvenic fluctuations in the solar wind<br />
<br />
*6. Michael Hartinger -- Radiation belt response to large scale, monochromatic ULF waves: LANL-GEO observations<br />
<br />
<br />
'''ULF wave modeling, including CCMC modeling challenge, Joint with MMV''': 3:30-5:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Lutz Rastaetter -- CCMC ULF wave modeling challenge update and challenge events<br />
<br />
*2. Scot Elkington -- [https://drive.google.com/file/d/0B57bC_V89WW6WUxJcGNqbUU2bzA/view?usp=sharing ULF wave activity and diffusion coefficients during QARBM challenge events], [https://drive.google.com/file/d/0B3MAHZknMumcem40dTVyNVRFbE0/view?usp=sharing Ashar F. Ali’s write-up on Event-Specific Radial Diffusion Coefficients Derived Using RBSP EMFISIS and EFW Data]<br />
<br />
*3. Katariina Nykyri -- KHI challenge events<br />
<br />
*4. All -- Open Discussion of Challenge Events<br />
<br />
*5. Doga Ozturk -- Effects of Increased Solar Wind Dynamic Pressure on the Coupled M-I system under different IMF By<br />
<br />
*6. Kazue Takahashi -- Cavity mode Van Allen Probe observations<br />
<br />
*7. Bob Lysak -- Cavity mode models<br />
<br />
*8. Tom Elsden -- [https://drive.google.com/file/d/0B57bC_V89WW6SDNnYjdwSVM3Y3c/view?usp=sharing The Theoretical Foundation of 3D Alfven Resonances: Time Dependent Solutions]<br />
<br />
<br />
'''Magnetosphere-Ionosphere coupling processes associated with localized disturbances caused by dayside kinetic phenomena: Joint with “Dayside Kinetic Processes…” and “Testing proposed links…”''': 3:30-5:00, Tuesday, June 20, Port VI-VIII<br />
<br />
*1. Peter Chi -- Magnetospheric and ionospheric responses to a localized disturbance: The macroscopic view<br />
<br />
*2. Hui Zhang -- Magnetospheric ULF waves generated by foreshock transients<br />
<br />
*3. Hui Zhang -- Modeling challenges in simulating HFA geoeffects<br />
<br />
*4. Boyi Wang -- Optical signatures of dayside ULF waves during magnetosheath high-speed jets<br />
<br />
*5. Katariina Nykyri -- The effect of magnetosheath seed spectrum on KH evolution and associated mass transport<br />
<br />
*6. Kyle Murphy -- A statistical study of discrete ULF wave power observed by GOES<br />
<br />
== 2017 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2017 mini-GEM] workshop<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 10, 2017, Canal/50<br />
<br />
'''ULF wave modeling challenges'''<br />
Discussion of final plans for the CCMC ULF wave modeling challenge with idealized drivers, as well as open discussion of new challenges involving data-model and model-model comparisons during [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing specific events]. Please come with 1-2 slides showing examples of such comparisons, ideas for improving ULF wave models, and/or ideas for specific modeling challenges/sessions relevant to the FG science questions.<br />
<br />
*1. 12:00-12:30 Overview of CCMC ULF wave modeling challenge with idealized driving conditions, description of challenge events and targets proposed during 2017 GEM meeting and November modeling telecon (Michael Hartinger, Lutz Rastaetter)<br />
*2. 12:30-13:30 [https://drive.google.com/file/d/1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI/view?usp=sharing Open discussion of challenge events and targets (Allison Jaynes,] Robert Rankin), select challenge event to be analyzed at 2018 GEM<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 10, 2017, Canal/50<br />
<br />
'''Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
Discussion of HGSO coordination for ULF wave studies. This includes updates on the [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] conjunction event followed by an open discussion of conjunctions and datasets that are particularly useful for ULF wave studies, including upcoming RBSP-ERG-ground conjunctions. Please come with 1-2 slides showing examples of datasets and past/upcoming conjunctions ideal for addressing the FG science questions: What excites ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in MI coupling? We welcome discussion from both modelers and observers of the types of conjunctions and observations that are most needed to address these questions.<br />
<br />
*1. 13:50-14:20 Recently available datasets and conjunctions for ULF wave studies (Chih-Ping Wang, Xueling Shi, Sana Qamar, Rob Redmon)<br />
*2. 14:20-14:35 Updates on 2 May 2017 conjunction event (Toshi Nishimura, Michael Hartinger)<br />
*3. 14:35-15:20 Upcoming ARASE-RBSP conjunctions (Yoshi Miyoshi), Open Discussion of HGSO coordination for ULF wave studies (Toshi Nishimura, Kazue Takahashi)<br />
<br />
== 2018 GEM meeting schedule ==<br />
UMEA will hold [https://drive.google.com/file/d/1uh-ZOICfOBzNs9KLe3saFMnY9P-oqV9R/view?usp=sharing four sessions] at the 2018 GEM meeting. <br />
<br />
'''ULF waves during particle injections and dipolarizations, joint with Dipolarization and Substorm FG''': 10:30-12:00, Monday, June 18<br />
<br />
*1. Discussion of Session Topic<br />
<br />
*2. Bob Lysak -- [https://drive.google.com/file/d/1w8o5aGYbLsIEy2YmaoosF3WNeWTuLE59/view?usp=sharing Ionospheric Conductivity Effects on Pi2 Pulsations]<br />
<br />
*3. Mike Hartinger -- [https://drive.google.com/file/d/1tcJgspMQDkhPPvSTng4eZP7h-j7jvVR7/view?usp=sharing Pi2 waves during an extended period with stable plasmapause location and variable geomagnetic activity]<br />
<br />
*4. Toshi Nishimura -- Ionosphere observations of Pc5 ULF waves during 2018 HGSO conjunctions<br />
<br />
*5. Xueling Shi -- Long-lasting poloidal ULF waves observed by multiple satellite and SuperDARN HF radars<br />
<br />
*6. Jian Yang -- New RCM-I simulation results for buoyancy waves<br />
<br />
*7. Dick Wolf -- [https://drive.google.com/file/d/1vTkH_lmgXCcvkAYU6HgO_R5ZgIdGji3O/view?usp=sharing Theory of Buoyancy Waves] <br />
<br />
*8. Yan Song -- What Causes the Substorm Expansion Phase and Associated ULF Waves?<br />
<br />
<br />
'''Recent advances in ULF wave research''': 1:30-3:00, Monday, June 18 <br />
<br />
*1. [https://drive.google.com/file/d/1ms9kDYlBhCnxti8z9o9Lx8y0PPmkWu_-/view?usp=sharing Overview of focus group goals and recent progress]<br />
<br />
*2. Brief ULF wave poster overviews (Tuesday posters)<br />
<br />
*3. Kazue Takahashi -- Observation of nightside ULF waves by RBSP and Arase<br />
<br />
*4. Tom Elsden -- Broadband Excitation of 3D Alfven Resonances (FLRs) in an MHD Waveguide<br />
<br />
*5. Boyi Wang -- 2-D structure of foreshock driven Pc5 ULF waves observed by the THEMIS satellites and South Pole imager<br />
<br />
*6. Xiaochen Shen -- Foreshock transient-driven ultra-low frequency (ULF) waves with dawn-dusk asymmetry of wave power<br />
<br />
*7. Chih-Ping Wang -- ULF waves possibly driven by tailward propagation of foreshock perturbations<br />
<br />
*8. Allison Jaynes -- [https://drive.google.com/file/d/1EC3yPvda8fA0LUr9qTfszluNDLs6LdHT/view?usp=sharing Fast diffusion of ultra-relativistic electrons in the outer radiation belt: 17 March 2015 storm event]<br />
<br />
*9. Rualdo Soto -- The Drift-Mirror instability in Earth's inner magnetosphere<br />
<br />
*10. Martin Archer/Mike Hartinger -- [https://drive.google.com/file/d/1t4fmiiZP9wdJ-40TISEC7BuicEd64m7W/view?usp=sharing Results from Sonification and Citizen Science of Magnetospheric ULF waves]<br />
<br />
<br />
'''EMIC wave generation, propagation, and interactions''': 3:30-5:00, Monday, June 18 (discussion leaders: Alexander Drozdov and Maria Usanova)<br />
[https://drive.google.com/open?id=15rjO2UxK8sqdOfHXunDSLv5q-z51vwuD Session Summary]<br />
<br />
*1. Dedong Wang -- EMIC wave observations from Van Allen Probes and MMS<br />
<br />
*2. Mark Engebretson -- [https://drive.google.com/file/d/1jkhN45ezaeQyeAA7HmVuYOF_izjAMYra/view?usp=sharing Van Allen Probes, and ground based magnetometer observations of EMIC waves associated with a modest interplanetary shock]<br />
<br />
*3. Maria Usanova -- MMS Observations of Harmonic Electromagnetic Cyclotron Waves<br />
<br />
*4. Naritoshi Kitamura -- Direct measurements of energy transfer from hot H+ to EMIC waves by MMS<br />
<br />
*5. Bruce Fritz -- ELF Whistler Dependence on a Sunlit Ionosphere<br />
<br />
*6. Chae-Woo Jun -- EMIC waves associated with/without the injection inside/outside the plasmapause<br />
<br />
*7. Hyomin Kim -- Injection-associated EMIC waves<br />
<br />
*8. Sebastian Cervantes -- EMIC wave parameterization in radiation belt reanalysis<br />
<br />
*9. Maria Usanova -- Long-term correlation of EMIC wave activity and radiation belt flux variations<br />
<br />
*10. Alexander Drozdov -- The effects due to the EMIC waves in the VERB code modeling<br />
<br />
<br />
'''ULF wave modeling challenge, joint with MMV FG''': 3:30-5:00, Wednesday, June 20<br />
<br />
*1. Brief ULF wave poster overviews (Thursday posters)<br />
<br />
*2. Mike Hartinger: [https://drive.google.com/file/d/1g2cL_qaDbASLH5DoJ_auJKQCbG96sdQn/view?usp=sharing ULF wave modeling challenge event overview, discussion of challenge targets (continuing during session)]<br />
<br />
*3. Mariko Teramoto: ARASE ULF wave observations during challenge event<br />
<br />
*4. Sam Califf: [https://drive.google.com/file/d/1CvbVG2Dp8e6RokJE0501L8-LU9ipdUFT/view?usp=sharing GOES-14 and 16 observations during the ULF wave challenge event, Data Discussion]<br />
<br />
*5. Toshi Nishimura: [https://drive.google.com/file/d/1cavbwNU4LoAigIsGvGF_UtiTaM97dFtP/view?usp=sharing PFISR measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*6. Dogacan Su Ozturk: [https://drive.google.com/file/d/1MmP3D_4eeJbEVJzUyx8fAtFsG3b0grzy/view?usp=sharing The modeling study of the 27 March 2017 Event] <br />
<br />
*7. Xiaochen Shen: GEM Challenge Event: ULF wave-related electron and proton precipitation/negative dynamic pressure pulse driven EMIC wave<br />
<br />
*8. Tetsuo Motoba: [https://drive.google.com/file/d/1544ngYBXat-zUC1gZqo0lMVUZtYqxUqH/view?usp=sharing Auroral measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*9. Others discuss when their figures/summary plots in event overview pdf are presented…<br />
<br />
== 2018 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2018 mini-GEM] workshop<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF modulation of the aurora, Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
This session focuses on understanding a variety of mechanisms responsible for ULF modulations of the aurora. Eric Donovan will give a 30 minute invited presentation, with the rest of the session open for presentations and discussion on this topic. We welcome discussion of ULF aurora generation mechanisms and the types of conjunctions, observations, and models needed to understand the zoo of ULF auroral modulations. We also welcome discussion of upcoming observation campaigns/satellite conjunctions that would be particularly useful for ULF wave studies.<br />
<br />
*1. Eric Donovan<br />
*2. Tetsuo Motoba<br />
*3. Slava Pilipenko<br />
*4. Boyi Wang / Toshi Nishimura<br />
*5. Open discussion<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF wave modeling challenge and research highlights'''<br />
The first part of the session is for updates on the idealized ULF wave modeling challenge and potential 2019 GEM sessions. The next part of the session is for observation/model presentations relevant to the 27-28 May 2017 ULF wave challenge event and final selection of the modeling challenge targets – all types of models and observations welcome. The last part of the session will be open for 1 slide ULF wave modeling and observation research highlights. <br />
<br />
*1. [https://drive.google.com/file/d/1vqxxn3gYXfzDKABe9yRwMgR8vbKRua_j/view?usp=sharing 2019 GEM session ideas] (Mike Hartinger)<br />
*2. Idealized Modeling Challenge (Lutz Rastaetter)<br />
*3. ULF wave modeling challenge event updates: Rob Redmon/Sam Califf/Mike Hartinger (GOES magnetometer observations), Yoshi Miyoshi (Arase magnetic field observations), [https://drive.google.com/file/d/1B6DGHvAzUhBG79eUJWPsUD2BSjGhQrrw/view?usp=sharing Hyomin Kim (wave-particle interaction)], [https://drive.google.com/file/d/180iaBGrbCPf1rYy6uVZn8OsLTOFREqsD/view?usp=sharing Dong Lin (LFM simulations)]<br />
*4. General ULF wave modeling: [https://drive.google.com/file/d/10gUKitjDPnbV_g9r9CAHDFeE365wUQQd/view?usp=sharing Yaireska Collado-Vega (vortex identification/surface waves)], [https://drive.google.com/file/d/1kkGlYKoYHr7XZf5nT3kaXITUD3tpNynJ/view?usp=sharing Alex Degeling (ULF wave radiation belt interactions)] <br />
*5. Research highlights (1-slide): Rualdo Soto (Van Allen Probes and Cluster satellites’ observations of Pc 5 (mHz) magnetic pulsations), [https://drive.google.com/file/d/1V_Joz3psBQbCBoVKRYaOKdKIEoZ72WgQ/view?usp=sharing Xueling Shi (SuperDARN ULF waves)], Martin Archer (magnetopause surface eigenmodes), [https://drive.google.com/file/d/1Mmi3VfERKswG3dpYidVUgOQra2UG-9s2/view?usp=sharing Martin Archer (sonification)]<br />
<br />
== 2019 GEM meeting schedule ==<br />
<br />
UMEA will hold [https://drive.google.com/file/d/1KmH9XqxrisGH_g4s0ny7QDkutmv7tKlr/view?usp=sharing six sessions] at the 2019 GEM meeting, four joint with other focus groups. <br />
<br />
'''Recent advances in ULF wave research: Modeling''': 3:30-5:00, Monday, June 24 New Mexico room, joint with MMV. <br />
Discussion of advances in ULF wave research, with focus on modeling and modeling challenges (e.g., boundary conditions, grid resolution, missing physics). This includes models of the effects of ULF waves on inner magnetosphere dynamics and wave-particle interactions. We particularly encourage presentations focused on the ULF wave modeling challenge, including data-model comparisons for the 27-28 May 2017 challenge event.<br />
*Mike Hartinger, [https://drive.google.com/open?id=1Drkq9epsQWY4AjpV1EF-8Ci_kaKyN2jk FG updates]<br />
*Jesper Gjerloev, SuperMAG ULF updates<br />
*Tetsuo Motoba, High-time resolution SuperMAG ULF data products<br />
*Lutz Rastaetter, ULF wave modeling challenge<br />
*Maulik Patel, MHD test particle simulations of the 16 July 2017 shock compression of the dayside magnetopause <br />
*Bob McPherron, Pi 2 pulsations during the storm of May 27-29 2017, The Statistics of Pi 2 Pulsation Occurrence during a Major Magnetic Storm<br />
*Dong Lin, LFM simulations of surface waves during challenge event<br />
<br />
'''The ULF response to dayside transients with different temporal/spatial scales''': 10:30-12:00, Wednesday, June 26 Santa Fe room, discussion leader: Tom Elsden, joint with Dayside Kinetics and IHMIC. <br />
Dayside transient phenomena associated with kinetic scale processes cause a variety of ULF wave behaviour in the magnetosphere and further, contribute to significant magnetospheric asymmetries. The aim of this session is to bring together the expertise of the three focus groups listed above, to answer outstanding questions at the overlap of these disciplines. It is hoped that such a discussion should prove fruitful enough to generate a JGR commentary paper in this area. With this in mind, speakers in this session are encouraged to give their views as to the current state of the subject area, and how outstanding problems may be addressed in the future.<br />
* Tom Elsden - Session introduction and goals<br />
* Ferdinand Plaschke (invited) - An overview of dayside transients causing ULF waves<br />
* Tom Elsden - 3D ULF wave modeling with MHD<br />
* Boyi Wang - The role of magnetosheath high-speed jets in triggering magnetospheric Pc5 ULF waves<br />
* Bob Lysak - Ionospheric asymmetries and quarter-wave modes<br />
* Xueling Shi - Conjugate Observations of ULF Waves during an Extended Period of Radial IMF<br />
* Michael Hartinger - Localized magnetopause surface wave activity and [https://drive.google.com/open?id=1d8lDB-FPGa6VErL37aZz3xZSgpNvxbk0 modeling challenges]<br />
* Discussion<br />
<br />
'''ULF wave modeling challenges associated with Magnetosphere-Ionosphere-Thermosphere Coupling''': 3:30-5:00, Wednesday, June 26 Lumpkins Ballroon South, joint with IEMIT, discussion leader Doga Ozturk. <br />
ULF waves play important roles in M-I-T coupling, driving current systems that can lead to I-T system heating and geomagnetically induced currents. This session aims to bring together researchers from the ULF wave and M-I-T coupling research communities to discuss challenges associated with realistically modeling M-I-T coupling processes associated with these waves. The session will begin with a discussion of the ULF wave challenge event; comparisons between modeled / observed (PFISR) conductivities and modeled/observed ULF wave properties will be presented, and the community will be invited to discuss explanations for model/observation differences. The rest of the session is open for short presentations on ULF wave modeling challenges related to M-I-T coupling, including topics such as specifying conductivity and effect of conductivity on wave properties, effect of ionospheric boundary conditions in global simulations, boundary conditions and feedback between magnetosphere and ionosphere, capturing role of waves in ionospheric-thermospheric heating.<br />
# (Invited) Boyi Wang: Ionospheric modulation by Pc5 ULF waves and wave structure detected by PFISR<br />
# (Invited) Xiaojia Zhang / Anton Artemyev: ULF modulation of VLF waves and precipitation<br />
# Doga Ozturk: Update from GEM/CEDAR joint session, [https://drive.google.com/open?id=1WsSf4PFHiBo_iZ3za-bhUWKHFJd4MNQX ULF Wave activity and Meso-Scale electric field variability at high-latitude I-T system]<br />
# Anatoly Streltsov: ULF waves generated by the MI interactions near the plasmapause<br />
# Mergen Alimaganbetov: ULF waves observed in space and on the ground at high and low latitudes<br />
# Mark Engebretson: [https://drive.google.com/open?id=16WbDl3rnuehoifUqFj4oMw_Tn5WhEFlU Multi-Instrument Observations of Nighttime Impulsive Magnetic Events]<br />
# Bob Lysak: Modeling ionospheric conductance and ground magnetic fields<br />
# Yan Song: ULF wave, M-I coupling and Auroral formation.<br />
<br />
[https://drive.google.com/open?id=1wGpZPk086Zs54uWGtYiRjByPmVCFnsSv '''EMIC waves''']: 10:30-12:00, Thursday, June 27 New Mexico room, joint with Radiation Belt. <br />
The generation mechanisms of Electromagnetic Ion Cyclotron (EMIC) waves, their effects on energetic electrons and ions, and their propagation through the magnetosphere-ionosphere system are challenging topics that involve multiple GEM research areas. Despite several years of observations and improved global wave statistics, there are many unresolved questions that limit further investigation, modeling and prediction of dynamical processes in the inner magnetosphere involving EMIC waves. Hence, we invite short presentations that discuss recent findings in different areas of EMIC wave research and identify observations/models most needed to address unresolved questions.<br />
*Robert Allen, Outer magnetospheric EMIC wave source regions characterized by Cluster<br />
*Sarah Vines, EMIC waves in the outer magnetosphere: Observations of an off-equator source region<br />
*Justin Lee, [https://drive.google.com/open?id=1xlJfppvWgOC_JHy6QgPpptcI3GjkYuLC EMIC wave observations by MMS] <br />
*Chao Yue, The relationship between EMIC wave properties and proton distributions based on Van Allen Probes observations<br />
*Kristine Sigsbee, Simultaneous EMIC Wave Observations During a Van Allen Probes Conjunction<br />
*Hyomin Kim, [https://drive.google.com/open?id=1UmmYHxyIcH2FfQmRnffGNnCUNjH8S5qQ Observations of Particle Loss due to Injection-Associated EMIC Waves]<br />
*Yuri Shprits, Dips in PSD and how they are related to EMIC wave scattering<br />
*Richard Denton, Electromagnetic ion cyclotron waves in the dipole magnetosphere and pitch angle scattering of sub-MeV relativistic electrons by those waves<br />
*Qianli Ma, Pitch angle scattering of radiation belt electrons due to statistical EMIC wave spectra <br />
<br />
'''Recent advances in ULF wave research: Observations and HGSO coordination for ULF wave studies''': 1:30-3:00, Thursday, June 27 New Mexico room. <br />
Discussion of recent advances in ULF wave research, with focus on observations and a general discussion of Heliophysics/Geospace System Observatory coordination for ULF wave studies. We particularly encourage presentations describing (1) past or upcoming satellite conjunctions, (2) new data analysis tools, and/or (3) instrumentation/operation modes of interest to the ULF wave research community.<br />
*Seth Claudepierre/Matina Gkioulidou (invited), [https://drive.google.com/open?id=1bjENFjvkWSjLYA_EfFuTxhCyKtVlk7c1 Van Allen Probes: End of Mission and ULF wave studies]<br />
*Tetsuo Motoba, SuperMAG ULF wave tools<br />
*Sarah Vines, Determining EMIC wave vector properties through multi-point measurements: The wave curl analysis<br />
*Aaron Breneman, [https://drive.google.com/open?id=1NHlf9I_VV6vkx9id_NL4gE6YhEsSRxkG BARREL precipitation during solar wind driven ULF wave events] <br />
*Anatoly Streltsov, Effect of the Hall conductivity on generation of ULF waves<br />
*Mohammad Barani, [https://drive.google.com/open?id=1sCMVi0pbWsggpUUnotdl-4LO_hfGGFEc Estimating the Azimuthal Mode Structure of ULF Waves Based on Multiple GOES Satellite Observations]<br />
*Kazue Takahashi, L versus time structures of ground magnetic pulsations<br />
*Chih-Ping Wang, Earthward propagation of Pi2 waves<br />
<br />
'''ULF waves driven by wave-particle interactions and instabilities''': 3:30-5:00, Thursday, June 27 Lumpkins Ballroon South, discussion leaders: Xueling Shi and Hyomin Kim. <br />
Many ULF wave modes are closely related to instabilities and wave-particle interactions inside the magnetosphere: poloidal mode waves associated with particle injections, mirror/drift-mirror modes, buoyancy waves… These waves are often discussed in different contexts and in different GEM sessions. In addition, there have been relatively few studies of modeling internally generated ULF waves. The purpose of this session is to bring together modelers and observers to discuss the underlying processes that drive/damp these waves, their impact(s) on the M-I system (ring current, radiation belt, ionosphere,…), and the models/observations needed to better understand wave dynamics.<br />
*Xuzhi Zhou (invited), Acceleration of relativistic electrons by global-scale ULF waves<br />
*Tomotsugu Yamakawa (invited), [https://drive.google.com/open?id=1PEsq7oWVeXwwXn3JvE5ZvWQIIjfXwKRB Simulation of the excitation of storm-time Pc5 ULF waves by ring current ions based on the drift-kinetic model]<br />
*Frank Toffoletto, Normal Mode Analysis of Buoyancy Waves <br />
*Peter Chi, Observations of High-m Poloidal Waves along Magnetospheric Field Lines<br />
*Mike Hartinger, [https://drive.google.com/open?id=17do2Jxy01SJPmOloBxzTPID9ZzqaPGZI Observations of wave-particle interactions using MagEIS ultra-high resolution energy channels]<br />
*Jiang Liu, Ultralow Frequency Waves Deep Inside the Inner Magnetosphere Driven by Dipolarizing Flux Bundles, and their interaction with electrons<br />
*Kyle Murphy, TBD<br />
<br />
== 2019 Mini-GEM schedule ==<br />
UMEA will hold one session at the [https://gemworkshop.org/ 2019 mini-GEM] workshop<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 8, 2019, Nevada Room<br />
<br />
'''ULF wave modeling challenge event, HGSO coordination, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge and potential 2020 GEM sessions. The next part of the session is open for ULF wave research presentations discussing the ULF wave modeling challenge event or current/upcoming observation campaigns that are particularly useful for ULF wave studies. The last part of the session will be open for 1 slide ULF wave research highlights.<br />
<br />
*Mike Hartinger, [https://drive.google.com/open?id=1eQQc07g7nCTEGNwaTGesQx4ymIU6m815 UMEA updates and proposed sessions for 2020 GEM workshop]<br />
*Dong Lin, [https://drive.google.com/open?id=1SqiD1u69eyKNzLyrtvTWbMK05L5OrkrO LFM Simulations of ULF wave modeling challenge event]<br />
*Mohammad Barani, [https://drive.google.com/open?id=1fQAossqjQ-aBuGIBhDIW6I0_WEtHdQsF High-fidelity ULF wave azimuthal mode number structure estimation using MMS magnetometer observations], [https://www.youtube.com/watch?reload=9&v=W5Vya8pCjNE&t=1s link to related presentation on YouTube]<br />
*Chih-Ping Wang, [https://drive.google.com/open?id=19ugyLwyIp4YRuLpDuzT330IdbbFppQcr Inward propagation of Pi2 wave from plasma sheet to inner magnetosphere: THEMIS-GOES conjunctions]<br />
*Walk-ins<br />
<br />
== 2020 VGEM schedule ==<br />
UMEA will hold two sessions at the [https://gemworkshop.org/ 2020 Virtual GEM] workshop<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave modeling challenge event'''<br />
(Hosted by Xueling Shi)<br />
The first part of the session is for updates on research related to the challenge event (27-29 May 2017 storm): All modeling and observation talks welcome as long as they're related to this event. The last part of the session will be for short research highlights and oral summaries of posters.<br />
<br />
*Mike Hartinger (10 minutes), [https://drive.google.com/file/d/1Z5-g7-f-iKfpuWD03WVkA3Q2Rb9mbQfe/view?usp=sharing 2020 UMEA updates and overview of challenge event] <br />
*Simone Di Matteo (15 minutes), [https://drive.google.com/file/d/1acsSyIszg95muYurOkn0RmW0btblS3Ja/view?usp=sharing On some features characterizing the plasmasphere–magnetosphere–ionosphere system during the geomagnetic storm of 27 May 2017] <br />
*Bob McPherron (15 minutes), [https://drive.google.com/file/d/1pnqs49KamZF2BLgMdaoOroktmkBNnj1c/view?usp=sharing ULF wave activity at synchronous orbit during the May 27-29, 2017 Magnetic storm]<br />
*Boyi Wang (15 minutes), Ionospheric modulation by storm-time Pc5 ULF waves and wave structure detected by PFISR-THEMIS conjunctions<br />
*Lutz Rastaetter (15 minutes), [https://drive.google.com/file/d/1H9nTOrpQHX0NEau1eSktWjWM0KYbyfnM/view?usp=sharing Idealized ULF wave modeling challenge: high-resolution runs] <br />
*Mark Engebretson (5 minutes), [https://drive.google.com/file/d/1kvWyYe52OkTB7uUmKWRDSO305Jina-Yy/view?usp=sharing Nighttime magnetic perturbation events observed in Arctic Canada: Superposed epoch analysis]<br />
*Jinxing Li (5 minutes), Electron microinjections in association with compressional ULF waves: MMS observations<br />
*Xiaojia Zhang (5 minutes), [https://drive.google.com/file/d/1fKwf0t1ohDZIxF5NPtsgGKNP0cBEqECn/view?usp=sharing Spreading of Magnetopause-Generated Ultra-Low-Frequency Perturbations and the Associated Whistler Modulation] <br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave research highlights'''<br />
These will be contributed talks with priority given to graduate students and postdocs. The rationale is that virtual GEM will not provide the same type of networking opportunities as in-person GEM, and we'd like to balance this somewhat by giving more opportunities to students/postdocs to present their work on ULF waves.<br />
<br />
All presentations are 10 minutes including discussion:<br />
*Rachel Rice, Characteristics of Kelvin-Helmholtz Waves as Observed by MMS<br />
*Dong Lin, Idealized ULF wave simulations with GAMERA-RCM model<br />
*Boyi Wang, The interaction between ions and the ULF waves driven by a foreshock transient<br />
*Jayashree Bulusu, [https://drive.google.com/file/d/1YyRAo0I7Cf4-buxhTBXLxYaTWw7GX6SZ/view?usp=sharing Investigation of Pi2s during super quiet conditions from low and mid-latitudes]<br />
*Changzhi Zhai, High-m Poloidal ULF Wave Signatures in GPS TEC Data<br />
*Simone Di Matteo, [https://drive.google.com/file/d/1yYaidiu7O4a0Z8PeQXELiyatB03hJQyX/view?usp=sharing Power Spectral Density Background Estimate and Signal Detection via the Multitaper Method] <br />
*Yixin Hao, [https://drive.google.com/file/d/1iIf5QpLE9t7IThiIPNwhCoRHrbFDoR8R/view?usp=sharing Simultaneous observations of localized and global drift resonance]<br />
*Mohammad Barani, [https://drive.google.com/file/d/1it2y8JXJzrbjmt56MWia7ffbei63gIwC/view?usp=sharing Effects of realistic mode number structure on radial diffusion estimation]<br />
<br />
== 2021 January Virtual Mini-GEM schedule ==<br />
UMEA will hold one session at the Virtual Mini-GEM Worskhop.<br />
<br />
'''Time''': 12:00-14:00 US Eastern Time, Friday, January 22, 2021<br />
<br />
'''ULF wave modeling challenge event, planning for 2021 GEM meeting, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge event, including an invited talk by Naoko Takahashi. The next part of the session will be for open discussion on potential 2021 GEM sessions. The final part of the session will be open for ULF wave research highlights. <br />
*Mike Hartinger, Brief Introduction to Challenge event<br />
*Naoko Takahashi, Relative contribution of ULF waves and whistler-mode chorus to the radiation belt variation during May 2017 storm<br />
*Ian Kelley, GPS TEC response during the ULF wave challenge event<br />
*Mike Hartinger, ULF wave geoelectric fields during the challenge event<br />
*All, Planning for 2021 GEM sessions<br />
*Bob Lysak, FLRs in Jupiter's magnetosphere<br />
*Toshi Nishimura, Upcoming conjunctions for ULF wave studies<br />
*Toshi Nishimura, PFISR and all-sky imager observations of Pc5 ULF waves during substorms<br />
*Francesco Lena, Detection of Hertz Frequency Multiharmonic Field Line Resonances at Low-L (L=1.1–1.5) During Van Allen Probe Perigee Passes<br />
<br />
== 2021 VGEM schedule ==<br />
UMEA will lead four sessions at the [https://gemworkshop.org/ 2021 Virtual GEM] workshop.<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''Recent Advances in ULF Wave Research'''<br />
This session will start with a short update on the ULF wave modeling challenge. The rest of the session will be for recent advances in ULF wave research, with priority given to presentations (1) with data or modeling results related to the challenge event (27-28 May 2017) or (2) discussions of ULF wave data-model comparisons.<br />
<br />
*Michelle Salzano, IPDP-Pi1B - modeling drift shell splitting<br />
*Aditi Upadhyay, Occurrence Characteristics of Electromagnetic Ion Cyclotron Waves at the Indian Antactrtic Station, Maitri<br />
*Yangyang Shen, Tens to hundreds of keV electron precipitation driven by kinetic Alfven waves during an electron injection<br />
*Chih-Ping Wang, Statistical results for Pi2 waves associated with the plasma sheet BBFs observed by THEMIS-RBSP pair with RBSP inside or outside the plasmasphere<br />
*Tom Elsden, Modelling the Varying Location of Field Line Resonances During Geomagnetic Storms<br />
*Denny Oliveira, Factors controlling shock-induced magnetospheric ULF waves<br />
*Short Oral Summaries of Posters<br />
*Open Discussion<br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''The Future of ULF Wave Research'''<br />
<br />
Hosted by Ayomide Olabode<br />
<br />
This session will begin with a review of the ULF wave FG’s original goals, research topics covered in the last 5 years and related activities, and unresolved questions and research objectives. The remainder of the session is open for 1-2 slide presentations on major unresolved questions in ULF wave research. We particularly encourage presentations (1) exploring topics that could be addressed by current/future GEM FG or decadal survey white paper, (2) highlighting major questions or obstacles preventing progress in ULF wave research (e.g., missing data in a critical region, missing theory/modeling component), (3) discuss how ULF wave researchers can best take advantage of future satellite missions, ground-based infrastructure, computing advances/big data/AI, and modeling/theory advances. <br />
<br />
*Mike Hartinger, Retrospective on the ULF wave focus group<br />
*Martin Archer, Surface Waves<br />
*Tom Elsden, 3D FLRs<br />
*Alexander Drozdov, Radial Diffusion<br />
*Ayomide Olabode and Michelle Salzano, Ground Magnetic Perturbations<br />
*Mark Engebretson, Pc1 waves / MMS k-vector technique<br />
*Xueling Shi, Applications of TEC observations<br />
*Open discussion, walk-in presentations welcome<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Tuesday, July 27, 2021<br />
<br />
'''ULF Wave M-I Coupling Processes'''<br />
This session is joint with the IEMIT FG. The session will begin with a review of the role of ULF waves on M-I coupling. The remainder of the session is open for 5-min presentations on ULF wave topics related to M-I coupling, e.g., auroral acceleration, particle precipitation, geomagnetic perturbations, GICs, etc. More questions and discussions will be left to the end.<br />
<br />
*Hui Zhang, Role of ULF waves in M-I coupling<br />
*Chaosong Huang, Global Pc5 pulsations<br />
*Tetsuo Motoba, Daytime Pc5 Diffuse Auroral Pulsations and Their Association With Outer Magnetospheric ULF Waves<br />
*Anton Artemyev, ULF driven precipitations as observed by ELFIN<br />
*Mark Engebretson, Magnetic perturbation events related to GICs<br />
*Denny Oliveira, IP shock impact angle control of local intense dB/dt variations during substorm<br />
*Xueling Shi, Sources of Intense Geoelectric Fields in the United States<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Friday, July 30, 2021<br />
<br />
'''Coupling Between ULF Waves and Cold Plasma'''<br />
<br />
Hosted by Rachel Rice<br />
<br />
This session is joint with the Cold Plasma FG. The session will begin with a review of mechanisms that couple cold plasma populations to ULF waves by Richard Denton. The remainder of the session is for contributed presentations describing (1) recent advances in our understanding of cold plasma interactions with ULF waves and (2) outstanding questions that could be discussed in future cold plasma FG sessions.<br />
<br />
*Richard Denton, Coupling Between ULF Waves and Cold Plasma<br />
*Alex Degeling, Modeling ULF Waves Trapped in a Plasmaspheric Density Plume <br />
*Eun Hwa Kim, Can Electromagnetic Ion Cyclotron Waves Propagate to the Ground?: 2D Full Wave Simulation<br />
*Bob Lysak, Relation of plasmaspheric cavity modes to Pi2 pulsations in an asymmetric plasmasphere<br />
*Yixin Hao, ULF wave-cold plasma interaction<br />
*Mike Hartinger, The relationship between global ULF wave properties and radial Alfven speed profile<br />
<br />
== 2021 Mini-GEM ==<br />
<br />
Recent findings in various areas of EMIC wave research<br />
<br />
Time: 5:30-7:00 CST, Sunday, December 12, 2021<br />
The session will take place in Hilton Garden Inn New Orleans Convention Center (1001 South Peters Street New Orleans, LA 70130), in Room Anzalea. Virtual participants are welcome to use the following zoom link: https://auburn.zoom.us/j/85948889952?pwd=bjdKQStVWmtRaUZWR1JHeEhSYnp2QT09<br />
<br />
Presentations:<br />
*Justin H. Lee, [https://drive.google.com/file/d/1EyrlbKD32TmdEWWqpcig9ENdxdbbQClE/view?usp=sharing MMS measurements of cold and hot ion composition and EMIC waves]<br />
*Kristine Sigsbee, [https://docs.google.com/presentation/d/1MvWgE_eMEtRm49lGgfV4bvLoGkpnTrtH/edit?usp=sharing Statistics of Electromagnetic Ion Cyclotron (EMIC) Rising Tones] <br />
*Michael Hartinger, Short overview of open questions<br />
*Open discussion</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=FG:_ULF_Wave_Modeling,_Effects,_and_Applications&diff=5508FG: ULF Wave Modeling, Effects, and Applications2021-12-12T15:04:47Z<p>Mdhartin: /* 2021 Mini-GEM */</p>
<hr />
<div>''Focus Group Leaders:''<br />
* Michael Hartinger, Space Science Institute (mhartinger@spacescience.org)<br />
* Kazue Takahashi, Applied Physics Laboratory<br />
* Alexander Drozdov, UCLA<br />
* Maria Usanova, University of Colorado<br />
* Brian Kress, University of Colorado and NOAA-NCEI<br />
* Xueling Shi, Virginia Tech<br />
<br />
Focus Group term: 2016-2021<br />
<br />
Join the discussion on [https://gemworkshop.slack.com/archives/C016U8PA7TJ Slack], including discussion related to the 2020 GEM and 2021 miniGEM meetings.<br />
<br />
== Science Questions ==<br />
Our group aims to address the following broad science questions: What mechanisms excite ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in Magnetosphere-Ionosphere coupling?<br />
<br />
== Focus Group Proposal ==<br />
[http://gem.epss.ucla.edu/mediawiki/FGproposals/Hartinger-UMEA.pdf ULF Wave Modeling, Effects, and Applications (UMEA)] (December 2015)<br />
<br />
== ULF wave modeling challenge ==<br />
<br />
One part of the ULF wave modeling challenge involves running several global MHD simulation codes with identical, idealized solar wind driving conditions (sinusoidal density variation), then comparing the resulting global ULF wave properties and discussing differences in the context of differing boundary conditions, grids, etc. More details can be found here: [http://ccmc.gsfc.nasa.gov/challenges/ULF/ ULF wave modeling challenge at CCMC]<br />
<br />
Another part of the ULF wave modeling challenge involves data-model comparisons during specific events. At the 2017 GEM and mini-GEM meetings several [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing challenge events] were proposed, including two [https://drive.google.com/open?id=1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI 2017 events].<br />
<br />
We have selected the [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing 27-28 May 2017 storm event] for the ULF wave modeling challenge due to favorable solar wind coverage and availability of numerous satellites (MMS, ARASE, THEMIS, RBSP, Cluster, GOES, ...) and ground-based observations for global context and multi-point wave observations. We will be continuously updating this [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing overview presentation] with observation and modeling results. Model output and observations for the challenge event - including global densities from the NURD model - can be obtained [https://drive.google.com/drive/folders/1Bk9vJtbEHd-vSuYqr3UG9NGCqaBn69hw?usp=sharing here]. If you would like to add additional observations/model output to the google drive or overview pdf, please contact the co-chairs.<br />
<br />
CCMC has run several global MHD simulation codes using the driving conditions of the ULF wave challenge event. At the 2019 GEM meeting and future GEM/mini-GEM meetings, we plan data-model comparisons to identify where model/data don't agree and discuss these differences in the context of incorrect boundary conditions (e.g., compare model ionosphere to local PFISR-derived conductivities), missing physics, numerical dissipation, etc. Please contact CCMC/Lutz Rastaetter and model developers before using this simulation output in publications:<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_SWMF_040319_1 Space Weather Modeling Framework simulation], IMF Bx=0 (other parameters as in event). Full 2-day event, 3D output every 15s, virtual ground magnetometer. If you haven't used CCMC visualization tools before, be aware that you shouldn’t submit multiple visualization requests at the same time, as this could crash CCMC server for these large 3D files. Instead, request a batch process or wait for the first visualization request to complete. The easiest/fastest visualization is to follow the link above and scroll down until you see the virtual ground magnetometer and satellites list. Click on the magnetometer/satellite of interest, then select which parameter(s) to display/download. <br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_1 OpenGGCM run 1] – IMF Bx = -7 nT. Smaller time range available on 28 May 0400-1000, only virtual ground magnetometer from POKR/CMO available now. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_1 Full results including virtual satellite.]<br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_2 Open GGCM run 2] – IMF Bx = 0 nT (as in SWMF simulation). Same format as other OpenGGCM simulation. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_2 Full results including virtual satellite.]<br />
<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_LFM_051519_2 LFM simulation]<br />
<br />
== ULF wave HGSO event coordination ==<br />
Our group is helping coordinate analysis of conjunction events for ULF wave studies, including requesting instrument operation modes favorable for ULF wave analysis.<br />
<br />
The [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] 0400-0800 UT conjunction event includes several satellites (THEMIS, Cluster, Van Allen Probes, GOES, Geotail, FIREBIRD, METOP, POES, DMSP) in the pre-midnight sector during a conjunction with the Poker Flat Incoherent Scatter Radar and several SuperDARN radars. PFISR was operating throughout the conjunction, several SuperDARN radars were in high resolution sampling modes, and several satellites were operating in fast survey/burst mode. The conjunction is favorable for modeling and observation studies of magnetosphere-ionosphere coupling via ULF waves, wave-particle interactions, global ULF wave properties, and many other topics. [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing This pdf] summarizes preliminary results<br />
<br />
Several web-based tools are available for identifying future conjunctions, including [https://ergsc.isee.nagoya-u.ac.jp/analysis/index.shtml.en upcoming conjunctions between ARASE and Van Allen Probes/ground] and conjunctions between [https://swarm-aurora.com/conjunctionFinder/ SWARM/all-sky cameras].<br />
<br />
'''There are also many specialized, web-based tools for ULF wave analysis (please contact FG co-chairs to add to this list):'''<br />
<br />
*SuperMAG ground-based magnetometer [http://supermag.jhuapl.edu/rBrowse/?start=2001-01-30T05%3A00%3A00.000Z&step=14400 global ULF wave plots]<br />
<br />
*CARISMA ground-based magnetometer [http://www.carisma.ca/carisma-data/fgm-pc1-power-spectra Pc1 power spectra] and [http://www.carisma.ca/carisma-data/fgm-pc5-power-spectra Pc5 power spectra]<br />
<br />
*Augsburg College/UNH Arctic and Antarctic [http://space.augsburg.edu/searchcoil/index.html search coil magnetometer survey plots] <br />
<br />
*Augsburg College (hosted by ViRBO) [http://virbo.org/Augsburg/ULF ULF wave index]<br />
<br />
*[http://vt.superdarn.org/tiki-index.php?page=DaViT+DynFFT SuperDARN wave analysis] and [http://vt.superdarn.org/tiki-index.php?page=Data+Inventory identification of high time-resolution SuperDARN beams]<br />
<br />
*THEMIS satellite fluxgate magnetometer [http://themis.ssl.berkeley.edu/summary.php?year=2014&month=05&day=11&hour=0024&sumType=thmfgmdyn&type=themislinfgl wave survey plots]<br />
<br />
*National Institute of Polar Research inter-hemispheric comparisons of Syowa/Iceland [http://iugonet0.nipr.ac.jp/web/induction/ induction magnetometer spectra]<br />
<br />
*[http://mist.nianet.org/Satellite_Conjunctions/ Inter-hemispheric comparisons] during satellite conjunctions with Arctic(DTU Space)/Antarctic(Virginia Tech) magnetometers<br />
<br />
*[http://kho.unis.no/uaf_msp.htm Meridian Scanning Photometer plots] from [http://kho.unis.no/ UNIS/Kjell Henriksen Observatory], for context on open-closed boundary and ULF modulation of the aurora<br />
<br />
== Summary Reports for GEM workshops ==<br />
[https://drive.google.com/file/d/1QLH8FcKm3-f25aLwoetOuYJGZu5sPgN3/view?usp=sharing 2016 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1SRIv6Gn-NNnqGPHGvjvZQcdDml2GQpv_/view?usp=sharing 2017 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1clzFHWrxC9hvYf9kECJx4bPn9xn8WwsG/view?usp=sharing 2018 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1_fLwZFCLBTBHnq8HkaFPWUvaIY81E-t0/view?usp=sharing 2019 UMEA FG report]<br />
<br />
== 2016 Mini-GEM schedule ==<br />
UMEA will hold one session at the [http://www.cpe.vt.edu/gem-mini/ mini-GEM workshop]: ULF wave modeling, effects and applications updates<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 11, 2016<br />
<br />
'''Location''': Oregon Room, Holiday Inn Golden Gateway<br />
<br />
'''Schedule:'''<br />
<br />
'''First Half (12:00 – 12:45): 3 talks (~15 min each):'''<br />
<br />
*1. Mike Hartinger -- [http://gem.epss.ucla.edu/mediawikiwiki/images/7/7c/UMEAoverview_miniGEM2016.pdf Overview of UMEA current activities, discussion of future plans]<br />
<br />
*2. Lutz Rastaetter -- ULF wave modeling challenge at CCMC<br />
<br />
*3. Robert Rankin -- Modeling the global properties and ground-based signatures of ULF waves and wave-particle interactions<br />
<br />
'''Second Half (12:45 – 13:30): (5 minutes each, 1-2 slides, order of talks may change):'''<br />
<br />
*1. Xueling Shi -- SuperDARN THEMIS Mode Data Tracker & ULF Wave Detection<br />
<br />
*2. Richard Denton -- Mass density inferred from Alfven wave frequencies measured by RBSP<br />
<br />
*3. Lars Daldorff -- ULF waves, particle transport and energization in global MHD simulations with plasmasphere<br />
<br />
*4. Alexander Drozdov -- Dependence of radiation belt simulations to assumed radial diffusion rates tested for two empirical models of radial transport<br />
<br />
*5. Bob Lysak -- Quarter Wavelength Modes<br />
<br />
*6. Walk-ins<br />
<br />
== 2017 GEM meeting schedule ==<br />
UMEA will hold four sessions session at the 2017 GEM meeting<br />
<br />
'''UMEA Update and plans, general discussion of ULF wave modeling and observations''': 10:30-12:15, Monday, June 19, Port VI-VIII<br />
<br />
*1. Michael Hartinger -- [https://drive.google.com/file/d/0B57bC_V89WW6dnBCbmFFSkFURUk/view?usp=sharing UMEA update]<br />
<br />
*2. Toshi Nishimura -- PFISR measurements during the 2 May 2017 HGSO event<br />
<br />
*3. Xueling Shi -- [https://drive.google.com/file/d/0B57bC_V89WW6OUcyNGNWM0piWnc/view?usp=sharing A Survey of Ionospheric ULF Wave Signatures in SuperDARN Data: Occurrence Statistics and Driving Mechanisms]<br />
<br />
*4. Tetsuo Motoba -- Dayside Auroral Pulsations<br />
<br />
*5. Brian Kress and Rob Redmon -- Newly Available GOES 8-16 Particle and Magnetic Field Measurements<br />
<br />
*6. Dick Wolf -- Theory of magnetospheric buoyancy waves<br />
<br />
<br />
'''ULF wave interactions with the radiation belt and ring current populations''': 1:30-3:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Rualdo Soto-Chavez -- Generation of Pc5-ULF wave by the drift-mirror instability<br />
<br />
*2. Zhiyang Xia -- [https://drive.google.com/file/d/0B57bC_V89WW6Y1VQRXJKd3Qya3c/view?usp=sharing Eigenmode analysis of compressional poloidal modes in a self-consistent magnetic field]<br />
<br />
*3. Mark Engebretson -- [https://drive.google.com/file/d/0B57bC_V89WW6QlM3LU9lTVVwZ1E/view?usp=sharing Statistical study of the upper frequency cutoff of helium band EMIC waves observed by the Van Allen Probes]<br />
<br />
*4. Alexander Drozdov -- Radial diffusion and EMIC waves in the long-term simulation and in the case study<br />
<br />
*5. Seth Claudepierre -- Global MHD simulations driven by idealized Alfvenic fluctuations in the solar wind<br />
<br />
*6. Michael Hartinger -- Radiation belt response to large scale, monochromatic ULF waves: LANL-GEO observations<br />
<br />
<br />
'''ULF wave modeling, including CCMC modeling challenge, Joint with MMV''': 3:30-5:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Lutz Rastaetter -- CCMC ULF wave modeling challenge update and challenge events<br />
<br />
*2. Scot Elkington -- [https://drive.google.com/file/d/0B57bC_V89WW6WUxJcGNqbUU2bzA/view?usp=sharing ULF wave activity and diffusion coefficients during QARBM challenge events], [https://drive.google.com/file/d/0B3MAHZknMumcem40dTVyNVRFbE0/view?usp=sharing Ashar F. Ali’s write-up on Event-Specific Radial Diffusion Coefficients Derived Using RBSP EMFISIS and EFW Data]<br />
<br />
*3. Katariina Nykyri -- KHI challenge events<br />
<br />
*4. All -- Open Discussion of Challenge Events<br />
<br />
*5. Doga Ozturk -- Effects of Increased Solar Wind Dynamic Pressure on the Coupled M-I system under different IMF By<br />
<br />
*6. Kazue Takahashi -- Cavity mode Van Allen Probe observations<br />
<br />
*7. Bob Lysak -- Cavity mode models<br />
<br />
*8. Tom Elsden -- [https://drive.google.com/file/d/0B57bC_V89WW6SDNnYjdwSVM3Y3c/view?usp=sharing The Theoretical Foundation of 3D Alfven Resonances: Time Dependent Solutions]<br />
<br />
<br />
'''Magnetosphere-Ionosphere coupling processes associated with localized disturbances caused by dayside kinetic phenomena: Joint with “Dayside Kinetic Processes…” and “Testing proposed links…”''': 3:30-5:00, Tuesday, June 20, Port VI-VIII<br />
<br />
*1. Peter Chi -- Magnetospheric and ionospheric responses to a localized disturbance: The macroscopic view<br />
<br />
*2. Hui Zhang -- Magnetospheric ULF waves generated by foreshock transients<br />
<br />
*3. Hui Zhang -- Modeling challenges in simulating HFA geoeffects<br />
<br />
*4. Boyi Wang -- Optical signatures of dayside ULF waves during magnetosheath high-speed jets<br />
<br />
*5. Katariina Nykyri -- The effect of magnetosheath seed spectrum on KH evolution and associated mass transport<br />
<br />
*6. Kyle Murphy -- A statistical study of discrete ULF wave power observed by GOES<br />
<br />
== 2017 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2017 mini-GEM] workshop<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 10, 2017, Canal/50<br />
<br />
'''ULF wave modeling challenges'''<br />
Discussion of final plans for the CCMC ULF wave modeling challenge with idealized drivers, as well as open discussion of new challenges involving data-model and model-model comparisons during [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing specific events]. Please come with 1-2 slides showing examples of such comparisons, ideas for improving ULF wave models, and/or ideas for specific modeling challenges/sessions relevant to the FG science questions.<br />
<br />
*1. 12:00-12:30 Overview of CCMC ULF wave modeling challenge with idealized driving conditions, description of challenge events and targets proposed during 2017 GEM meeting and November modeling telecon (Michael Hartinger, Lutz Rastaetter)<br />
*2. 12:30-13:30 [https://drive.google.com/file/d/1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI/view?usp=sharing Open discussion of challenge events and targets (Allison Jaynes,] Robert Rankin), select challenge event to be analyzed at 2018 GEM<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 10, 2017, Canal/50<br />
<br />
'''Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
Discussion of HGSO coordination for ULF wave studies. This includes updates on the [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] conjunction event followed by an open discussion of conjunctions and datasets that are particularly useful for ULF wave studies, including upcoming RBSP-ERG-ground conjunctions. Please come with 1-2 slides showing examples of datasets and past/upcoming conjunctions ideal for addressing the FG science questions: What excites ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in MI coupling? We welcome discussion from both modelers and observers of the types of conjunctions and observations that are most needed to address these questions.<br />
<br />
*1. 13:50-14:20 Recently available datasets and conjunctions for ULF wave studies (Chih-Ping Wang, Xueling Shi, Sana Qamar, Rob Redmon)<br />
*2. 14:20-14:35 Updates on 2 May 2017 conjunction event (Toshi Nishimura, Michael Hartinger)<br />
*3. 14:35-15:20 Upcoming ARASE-RBSP conjunctions (Yoshi Miyoshi), Open Discussion of HGSO coordination for ULF wave studies (Toshi Nishimura, Kazue Takahashi)<br />
<br />
== 2018 GEM meeting schedule ==<br />
UMEA will hold [https://drive.google.com/file/d/1uh-ZOICfOBzNs9KLe3saFMnY9P-oqV9R/view?usp=sharing four sessions] at the 2018 GEM meeting. <br />
<br />
'''ULF waves during particle injections and dipolarizations, joint with Dipolarization and Substorm FG''': 10:30-12:00, Monday, June 18<br />
<br />
*1. Discussion of Session Topic<br />
<br />
*2. Bob Lysak -- [https://drive.google.com/file/d/1w8o5aGYbLsIEy2YmaoosF3WNeWTuLE59/view?usp=sharing Ionospheric Conductivity Effects on Pi2 Pulsations]<br />
<br />
*3. Mike Hartinger -- [https://drive.google.com/file/d/1tcJgspMQDkhPPvSTng4eZP7h-j7jvVR7/view?usp=sharing Pi2 waves during an extended period with stable plasmapause location and variable geomagnetic activity]<br />
<br />
*4. Toshi Nishimura -- Ionosphere observations of Pc5 ULF waves during 2018 HGSO conjunctions<br />
<br />
*5. Xueling Shi -- Long-lasting poloidal ULF waves observed by multiple satellite and SuperDARN HF radars<br />
<br />
*6. Jian Yang -- New RCM-I simulation results for buoyancy waves<br />
<br />
*7. Dick Wolf -- [https://drive.google.com/file/d/1vTkH_lmgXCcvkAYU6HgO_R5ZgIdGji3O/view?usp=sharing Theory of Buoyancy Waves] <br />
<br />
*8. Yan Song -- What Causes the Substorm Expansion Phase and Associated ULF Waves?<br />
<br />
<br />
'''Recent advances in ULF wave research''': 1:30-3:00, Monday, June 18 <br />
<br />
*1. [https://drive.google.com/file/d/1ms9kDYlBhCnxti8z9o9Lx8y0PPmkWu_-/view?usp=sharing Overview of focus group goals and recent progress]<br />
<br />
*2. Brief ULF wave poster overviews (Tuesday posters)<br />
<br />
*3. Kazue Takahashi -- Observation of nightside ULF waves by RBSP and Arase<br />
<br />
*4. Tom Elsden -- Broadband Excitation of 3D Alfven Resonances (FLRs) in an MHD Waveguide<br />
<br />
*5. Boyi Wang -- 2-D structure of foreshock driven Pc5 ULF waves observed by the THEMIS satellites and South Pole imager<br />
<br />
*6. Xiaochen Shen -- Foreshock transient-driven ultra-low frequency (ULF) waves with dawn-dusk asymmetry of wave power<br />
<br />
*7. Chih-Ping Wang -- ULF waves possibly driven by tailward propagation of foreshock perturbations<br />
<br />
*8. Allison Jaynes -- [https://drive.google.com/file/d/1EC3yPvda8fA0LUr9qTfszluNDLs6LdHT/view?usp=sharing Fast diffusion of ultra-relativistic electrons in the outer radiation belt: 17 March 2015 storm event]<br />
<br />
*9. Rualdo Soto -- The Drift-Mirror instability in Earth's inner magnetosphere<br />
<br />
*10. Martin Archer/Mike Hartinger -- [https://drive.google.com/file/d/1t4fmiiZP9wdJ-40TISEC7BuicEd64m7W/view?usp=sharing Results from Sonification and Citizen Science of Magnetospheric ULF waves]<br />
<br />
<br />
'''EMIC wave generation, propagation, and interactions''': 3:30-5:00, Monday, June 18 (discussion leaders: Alexander Drozdov and Maria Usanova)<br />
[https://drive.google.com/open?id=15rjO2UxK8sqdOfHXunDSLv5q-z51vwuD Session Summary]<br />
<br />
*1. Dedong Wang -- EMIC wave observations from Van Allen Probes and MMS<br />
<br />
*2. Mark Engebretson -- [https://drive.google.com/file/d/1jkhN45ezaeQyeAA7HmVuYOF_izjAMYra/view?usp=sharing Van Allen Probes, and ground based magnetometer observations of EMIC waves associated with a modest interplanetary shock]<br />
<br />
*3. Maria Usanova -- MMS Observations of Harmonic Electromagnetic Cyclotron Waves<br />
<br />
*4. Naritoshi Kitamura -- Direct measurements of energy transfer from hot H+ to EMIC waves by MMS<br />
<br />
*5. Bruce Fritz -- ELF Whistler Dependence on a Sunlit Ionosphere<br />
<br />
*6. Chae-Woo Jun -- EMIC waves associated with/without the injection inside/outside the plasmapause<br />
<br />
*7. Hyomin Kim -- Injection-associated EMIC waves<br />
<br />
*8. Sebastian Cervantes -- EMIC wave parameterization in radiation belt reanalysis<br />
<br />
*9. Maria Usanova -- Long-term correlation of EMIC wave activity and radiation belt flux variations<br />
<br />
*10. Alexander Drozdov -- The effects due to the EMIC waves in the VERB code modeling<br />
<br />
<br />
'''ULF wave modeling challenge, joint with MMV FG''': 3:30-5:00, Wednesday, June 20<br />
<br />
*1. Brief ULF wave poster overviews (Thursday posters)<br />
<br />
*2. Mike Hartinger: [https://drive.google.com/file/d/1g2cL_qaDbASLH5DoJ_auJKQCbG96sdQn/view?usp=sharing ULF wave modeling challenge event overview, discussion of challenge targets (continuing during session)]<br />
<br />
*3. Mariko Teramoto: ARASE ULF wave observations during challenge event<br />
<br />
*4. Sam Califf: [https://drive.google.com/file/d/1CvbVG2Dp8e6RokJE0501L8-LU9ipdUFT/view?usp=sharing GOES-14 and 16 observations during the ULF wave challenge event, Data Discussion]<br />
<br />
*5. Toshi Nishimura: [https://drive.google.com/file/d/1cavbwNU4LoAigIsGvGF_UtiTaM97dFtP/view?usp=sharing PFISR measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*6. Dogacan Su Ozturk: [https://drive.google.com/file/d/1MmP3D_4eeJbEVJzUyx8fAtFsG3b0grzy/view?usp=sharing The modeling study of the 27 March 2017 Event] <br />
<br />
*7. Xiaochen Shen: GEM Challenge Event: ULF wave-related electron and proton precipitation/negative dynamic pressure pulse driven EMIC wave<br />
<br />
*8. Tetsuo Motoba: [https://drive.google.com/file/d/1544ngYBXat-zUC1gZqo0lMVUZtYqxUqH/view?usp=sharing Auroral measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*9. Others discuss when their figures/summary plots in event overview pdf are presented…<br />
<br />
== 2018 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2018 mini-GEM] workshop<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF modulation of the aurora, Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
This session focuses on understanding a variety of mechanisms responsible for ULF modulations of the aurora. Eric Donovan will give a 30 minute invited presentation, with the rest of the session open for presentations and discussion on this topic. We welcome discussion of ULF aurora generation mechanisms and the types of conjunctions, observations, and models needed to understand the zoo of ULF auroral modulations. We also welcome discussion of upcoming observation campaigns/satellite conjunctions that would be particularly useful for ULF wave studies.<br />
<br />
*1. Eric Donovan<br />
*2. Tetsuo Motoba<br />
*3. Slava Pilipenko<br />
*4. Boyi Wang / Toshi Nishimura<br />
*5. Open discussion<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF wave modeling challenge and research highlights'''<br />
The first part of the session is for updates on the idealized ULF wave modeling challenge and potential 2019 GEM sessions. The next part of the session is for observation/model presentations relevant to the 27-28 May 2017 ULF wave challenge event and final selection of the modeling challenge targets – all types of models and observations welcome. The last part of the session will be open for 1 slide ULF wave modeling and observation research highlights. <br />
<br />
*1. [https://drive.google.com/file/d/1vqxxn3gYXfzDKABe9yRwMgR8vbKRua_j/view?usp=sharing 2019 GEM session ideas] (Mike Hartinger)<br />
*2. Idealized Modeling Challenge (Lutz Rastaetter)<br />
*3. ULF wave modeling challenge event updates: Rob Redmon/Sam Califf/Mike Hartinger (GOES magnetometer observations), Yoshi Miyoshi (Arase magnetic field observations), [https://drive.google.com/file/d/1B6DGHvAzUhBG79eUJWPsUD2BSjGhQrrw/view?usp=sharing Hyomin Kim (wave-particle interaction)], [https://drive.google.com/file/d/180iaBGrbCPf1rYy6uVZn8OsLTOFREqsD/view?usp=sharing Dong Lin (LFM simulations)]<br />
*4. General ULF wave modeling: [https://drive.google.com/file/d/10gUKitjDPnbV_g9r9CAHDFeE365wUQQd/view?usp=sharing Yaireska Collado-Vega (vortex identification/surface waves)], [https://drive.google.com/file/d/1kkGlYKoYHr7XZf5nT3kaXITUD3tpNynJ/view?usp=sharing Alex Degeling (ULF wave radiation belt interactions)] <br />
*5. Research highlights (1-slide): Rualdo Soto (Van Allen Probes and Cluster satellites’ observations of Pc 5 (mHz) magnetic pulsations), [https://drive.google.com/file/d/1V_Joz3psBQbCBoVKRYaOKdKIEoZ72WgQ/view?usp=sharing Xueling Shi (SuperDARN ULF waves)], Martin Archer (magnetopause surface eigenmodes), [https://drive.google.com/file/d/1Mmi3VfERKswG3dpYidVUgOQra2UG-9s2/view?usp=sharing Martin Archer (sonification)]<br />
<br />
== 2019 GEM meeting schedule ==<br />
<br />
UMEA will hold [https://drive.google.com/file/d/1KmH9XqxrisGH_g4s0ny7QDkutmv7tKlr/view?usp=sharing six sessions] at the 2019 GEM meeting, four joint with other focus groups. <br />
<br />
'''Recent advances in ULF wave research: Modeling''': 3:30-5:00, Monday, June 24 New Mexico room, joint with MMV. <br />
Discussion of advances in ULF wave research, with focus on modeling and modeling challenges (e.g., boundary conditions, grid resolution, missing physics). This includes models of the effects of ULF waves on inner magnetosphere dynamics and wave-particle interactions. We particularly encourage presentations focused on the ULF wave modeling challenge, including data-model comparisons for the 27-28 May 2017 challenge event.<br />
*Mike Hartinger, [https://drive.google.com/open?id=1Drkq9epsQWY4AjpV1EF-8Ci_kaKyN2jk FG updates]<br />
*Jesper Gjerloev, SuperMAG ULF updates<br />
*Tetsuo Motoba, High-time resolution SuperMAG ULF data products<br />
*Lutz Rastaetter, ULF wave modeling challenge<br />
*Maulik Patel, MHD test particle simulations of the 16 July 2017 shock compression of the dayside magnetopause <br />
*Bob McPherron, Pi 2 pulsations during the storm of May 27-29 2017, The Statistics of Pi 2 Pulsation Occurrence during a Major Magnetic Storm<br />
*Dong Lin, LFM simulations of surface waves during challenge event<br />
<br />
'''The ULF response to dayside transients with different temporal/spatial scales''': 10:30-12:00, Wednesday, June 26 Santa Fe room, discussion leader: Tom Elsden, joint with Dayside Kinetics and IHMIC. <br />
Dayside transient phenomena associated with kinetic scale processes cause a variety of ULF wave behaviour in the magnetosphere and further, contribute to significant magnetospheric asymmetries. The aim of this session is to bring together the expertise of the three focus groups listed above, to answer outstanding questions at the overlap of these disciplines. It is hoped that such a discussion should prove fruitful enough to generate a JGR commentary paper in this area. With this in mind, speakers in this session are encouraged to give their views as to the current state of the subject area, and how outstanding problems may be addressed in the future.<br />
* Tom Elsden - Session introduction and goals<br />
* Ferdinand Plaschke (invited) - An overview of dayside transients causing ULF waves<br />
* Tom Elsden - 3D ULF wave modeling with MHD<br />
* Boyi Wang - The role of magnetosheath high-speed jets in triggering magnetospheric Pc5 ULF waves<br />
* Bob Lysak - Ionospheric asymmetries and quarter-wave modes<br />
* Xueling Shi - Conjugate Observations of ULF Waves during an Extended Period of Radial IMF<br />
* Michael Hartinger - Localized magnetopause surface wave activity and [https://drive.google.com/open?id=1d8lDB-FPGa6VErL37aZz3xZSgpNvxbk0 modeling challenges]<br />
* Discussion<br />
<br />
'''ULF wave modeling challenges associated with Magnetosphere-Ionosphere-Thermosphere Coupling''': 3:30-5:00, Wednesday, June 26 Lumpkins Ballroon South, joint with IEMIT, discussion leader Doga Ozturk. <br />
ULF waves play important roles in M-I-T coupling, driving current systems that can lead to I-T system heating and geomagnetically induced currents. This session aims to bring together researchers from the ULF wave and M-I-T coupling research communities to discuss challenges associated with realistically modeling M-I-T coupling processes associated with these waves. The session will begin with a discussion of the ULF wave challenge event; comparisons between modeled / observed (PFISR) conductivities and modeled/observed ULF wave properties will be presented, and the community will be invited to discuss explanations for model/observation differences. The rest of the session is open for short presentations on ULF wave modeling challenges related to M-I-T coupling, including topics such as specifying conductivity and effect of conductivity on wave properties, effect of ionospheric boundary conditions in global simulations, boundary conditions and feedback between magnetosphere and ionosphere, capturing role of waves in ionospheric-thermospheric heating.<br />
# (Invited) Boyi Wang: Ionospheric modulation by Pc5 ULF waves and wave structure detected by PFISR<br />
# (Invited) Xiaojia Zhang / Anton Artemyev: ULF modulation of VLF waves and precipitation<br />
# Doga Ozturk: Update from GEM/CEDAR joint session, [https://drive.google.com/open?id=1WsSf4PFHiBo_iZ3za-bhUWKHFJd4MNQX ULF Wave activity and Meso-Scale electric field variability at high-latitude I-T system]<br />
# Anatoly Streltsov: ULF waves generated by the MI interactions near the plasmapause<br />
# Mergen Alimaganbetov: ULF waves observed in space and on the ground at high and low latitudes<br />
# Mark Engebretson: [https://drive.google.com/open?id=16WbDl3rnuehoifUqFj4oMw_Tn5WhEFlU Multi-Instrument Observations of Nighttime Impulsive Magnetic Events]<br />
# Bob Lysak: Modeling ionospheric conductance and ground magnetic fields<br />
# Yan Song: ULF wave, M-I coupling and Auroral formation.<br />
<br />
[https://drive.google.com/open?id=1wGpZPk086Zs54uWGtYiRjByPmVCFnsSv '''EMIC waves''']: 10:30-12:00, Thursday, June 27 New Mexico room, joint with Radiation Belt. <br />
The generation mechanisms of Electromagnetic Ion Cyclotron (EMIC) waves, their effects on energetic electrons and ions, and their propagation through the magnetosphere-ionosphere system are challenging topics that involve multiple GEM research areas. Despite several years of observations and improved global wave statistics, there are many unresolved questions that limit further investigation, modeling and prediction of dynamical processes in the inner magnetosphere involving EMIC waves. Hence, we invite short presentations that discuss recent findings in different areas of EMIC wave research and identify observations/models most needed to address unresolved questions.<br />
*Robert Allen, Outer magnetospheric EMIC wave source regions characterized by Cluster<br />
*Sarah Vines, EMIC waves in the outer magnetosphere: Observations of an off-equator source region<br />
*Justin Lee, [https://drive.google.com/open?id=1xlJfppvWgOC_JHy6QgPpptcI3GjkYuLC EMIC wave observations by MMS] <br />
*Chao Yue, The relationship between EMIC wave properties and proton distributions based on Van Allen Probes observations<br />
*Kristine Sigsbee, Simultaneous EMIC Wave Observations During a Van Allen Probes Conjunction<br />
*Hyomin Kim, [https://drive.google.com/open?id=1UmmYHxyIcH2FfQmRnffGNnCUNjH8S5qQ Observations of Particle Loss due to Injection-Associated EMIC Waves]<br />
*Yuri Shprits, Dips in PSD and how they are related to EMIC wave scattering<br />
*Richard Denton, Electromagnetic ion cyclotron waves in the dipole magnetosphere and pitch angle scattering of sub-MeV relativistic electrons by those waves<br />
*Qianli Ma, Pitch angle scattering of radiation belt electrons due to statistical EMIC wave spectra <br />
<br />
'''Recent advances in ULF wave research: Observations and HGSO coordination for ULF wave studies''': 1:30-3:00, Thursday, June 27 New Mexico room. <br />
Discussion of recent advances in ULF wave research, with focus on observations and a general discussion of Heliophysics/Geospace System Observatory coordination for ULF wave studies. We particularly encourage presentations describing (1) past or upcoming satellite conjunctions, (2) new data analysis tools, and/or (3) instrumentation/operation modes of interest to the ULF wave research community.<br />
*Seth Claudepierre/Matina Gkioulidou (invited), [https://drive.google.com/open?id=1bjENFjvkWSjLYA_EfFuTxhCyKtVlk7c1 Van Allen Probes: End of Mission and ULF wave studies]<br />
*Tetsuo Motoba, SuperMAG ULF wave tools<br />
*Sarah Vines, Determining EMIC wave vector properties through multi-point measurements: The wave curl analysis<br />
*Aaron Breneman, [https://drive.google.com/open?id=1NHlf9I_VV6vkx9id_NL4gE6YhEsSRxkG BARREL precipitation during solar wind driven ULF wave events] <br />
*Anatoly Streltsov, Effect of the Hall conductivity on generation of ULF waves<br />
*Mohammad Barani, [https://drive.google.com/open?id=1sCMVi0pbWsggpUUnotdl-4LO_hfGGFEc Estimating the Azimuthal Mode Structure of ULF Waves Based on Multiple GOES Satellite Observations]<br />
*Kazue Takahashi, L versus time structures of ground magnetic pulsations<br />
*Chih-Ping Wang, Earthward propagation of Pi2 waves<br />
<br />
'''ULF waves driven by wave-particle interactions and instabilities''': 3:30-5:00, Thursday, June 27 Lumpkins Ballroon South, discussion leaders: Xueling Shi and Hyomin Kim. <br />
Many ULF wave modes are closely related to instabilities and wave-particle interactions inside the magnetosphere: poloidal mode waves associated with particle injections, mirror/drift-mirror modes, buoyancy waves… These waves are often discussed in different contexts and in different GEM sessions. In addition, there have been relatively few studies of modeling internally generated ULF waves. The purpose of this session is to bring together modelers and observers to discuss the underlying processes that drive/damp these waves, their impact(s) on the M-I system (ring current, radiation belt, ionosphere,…), and the models/observations needed to better understand wave dynamics.<br />
*Xuzhi Zhou (invited), Acceleration of relativistic electrons by global-scale ULF waves<br />
*Tomotsugu Yamakawa (invited), [https://drive.google.com/open?id=1PEsq7oWVeXwwXn3JvE5ZvWQIIjfXwKRB Simulation of the excitation of storm-time Pc5 ULF waves by ring current ions based on the drift-kinetic model]<br />
*Frank Toffoletto, Normal Mode Analysis of Buoyancy Waves <br />
*Peter Chi, Observations of High-m Poloidal Waves along Magnetospheric Field Lines<br />
*Mike Hartinger, [https://drive.google.com/open?id=17do2Jxy01SJPmOloBxzTPID9ZzqaPGZI Observations of wave-particle interactions using MagEIS ultra-high resolution energy channels]<br />
*Jiang Liu, Ultralow Frequency Waves Deep Inside the Inner Magnetosphere Driven by Dipolarizing Flux Bundles, and their interaction with electrons<br />
*Kyle Murphy, TBD<br />
<br />
== 2019 Mini-GEM schedule ==<br />
UMEA will hold one session at the [https://gemworkshop.org/ 2019 mini-GEM] workshop<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 8, 2019, Nevada Room<br />
<br />
'''ULF wave modeling challenge event, HGSO coordination, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge and potential 2020 GEM sessions. The next part of the session is open for ULF wave research presentations discussing the ULF wave modeling challenge event or current/upcoming observation campaigns that are particularly useful for ULF wave studies. The last part of the session will be open for 1 slide ULF wave research highlights.<br />
<br />
*Mike Hartinger, [https://drive.google.com/open?id=1eQQc07g7nCTEGNwaTGesQx4ymIU6m815 UMEA updates and proposed sessions for 2020 GEM workshop]<br />
*Dong Lin, [https://drive.google.com/open?id=1SqiD1u69eyKNzLyrtvTWbMK05L5OrkrO LFM Simulations of ULF wave modeling challenge event]<br />
*Mohammad Barani, [https://drive.google.com/open?id=1fQAossqjQ-aBuGIBhDIW6I0_WEtHdQsF High-fidelity ULF wave azimuthal mode number structure estimation using MMS magnetometer observations], [https://www.youtube.com/watch?reload=9&v=W5Vya8pCjNE&t=1s link to related presentation on YouTube]<br />
*Chih-Ping Wang, [https://drive.google.com/open?id=19ugyLwyIp4YRuLpDuzT330IdbbFppQcr Inward propagation of Pi2 wave from plasma sheet to inner magnetosphere: THEMIS-GOES conjunctions]<br />
*Walk-ins<br />
<br />
== 2020 VGEM schedule ==<br />
UMEA will hold two sessions at the [https://gemworkshop.org/ 2020 Virtual GEM] workshop<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave modeling challenge event'''<br />
(Hosted by Xueling Shi)<br />
The first part of the session is for updates on research related to the challenge event (27-29 May 2017 storm): All modeling and observation talks welcome as long as they're related to this event. The last part of the session will be for short research highlights and oral summaries of posters.<br />
<br />
*Mike Hartinger (10 minutes), [https://drive.google.com/file/d/1Z5-g7-f-iKfpuWD03WVkA3Q2Rb9mbQfe/view?usp=sharing 2020 UMEA updates and overview of challenge event] <br />
*Simone Di Matteo (15 minutes), [https://drive.google.com/file/d/1acsSyIszg95muYurOkn0RmW0btblS3Ja/view?usp=sharing On some features characterizing the plasmasphere–magnetosphere–ionosphere system during the geomagnetic storm of 27 May 2017] <br />
*Bob McPherron (15 minutes), [https://drive.google.com/file/d/1pnqs49KamZF2BLgMdaoOroktmkBNnj1c/view?usp=sharing ULF wave activity at synchronous orbit during the May 27-29, 2017 Magnetic storm]<br />
*Boyi Wang (15 minutes), Ionospheric modulation by storm-time Pc5 ULF waves and wave structure detected by PFISR-THEMIS conjunctions<br />
*Lutz Rastaetter (15 minutes), [https://drive.google.com/file/d/1H9nTOrpQHX0NEau1eSktWjWM0KYbyfnM/view?usp=sharing Idealized ULF wave modeling challenge: high-resolution runs] <br />
*Mark Engebretson (5 minutes), [https://drive.google.com/file/d/1kvWyYe52OkTB7uUmKWRDSO305Jina-Yy/view?usp=sharing Nighttime magnetic perturbation events observed in Arctic Canada: Superposed epoch analysis]<br />
*Jinxing Li (5 minutes), Electron microinjections in association with compressional ULF waves: MMS observations<br />
*Xiaojia Zhang (5 minutes), [https://drive.google.com/file/d/1fKwf0t1ohDZIxF5NPtsgGKNP0cBEqECn/view?usp=sharing Spreading of Magnetopause-Generated Ultra-Low-Frequency Perturbations and the Associated Whistler Modulation] <br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave research highlights'''<br />
These will be contributed talks with priority given to graduate students and postdocs. The rationale is that virtual GEM will not provide the same type of networking opportunities as in-person GEM, and we'd like to balance this somewhat by giving more opportunities to students/postdocs to present their work on ULF waves.<br />
<br />
All presentations are 10 minutes including discussion:<br />
*Rachel Rice, Characteristics of Kelvin-Helmholtz Waves as Observed by MMS<br />
*Dong Lin, Idealized ULF wave simulations with GAMERA-RCM model<br />
*Boyi Wang, The interaction between ions and the ULF waves driven by a foreshock transient<br />
*Jayashree Bulusu, [https://drive.google.com/file/d/1YyRAo0I7Cf4-buxhTBXLxYaTWw7GX6SZ/view?usp=sharing Investigation of Pi2s during super quiet conditions from low and mid-latitudes]<br />
*Changzhi Zhai, High-m Poloidal ULF Wave Signatures in GPS TEC Data<br />
*Simone Di Matteo, [https://drive.google.com/file/d/1yYaidiu7O4a0Z8PeQXELiyatB03hJQyX/view?usp=sharing Power Spectral Density Background Estimate and Signal Detection via the Multitaper Method] <br />
*Yixin Hao, [https://drive.google.com/file/d/1iIf5QpLE9t7IThiIPNwhCoRHrbFDoR8R/view?usp=sharing Simultaneous observations of localized and global drift resonance]<br />
*Mohammad Barani, [https://drive.google.com/file/d/1it2y8JXJzrbjmt56MWia7ffbei63gIwC/view?usp=sharing Effects of realistic mode number structure on radial diffusion estimation]<br />
<br />
== 2021 January Virtual Mini-GEM schedule ==<br />
UMEA will hold one session at the Virtual Mini-GEM Worskhop.<br />
<br />
'''Time''': 12:00-14:00 US Eastern Time, Friday, January 22, 2021<br />
<br />
'''ULF wave modeling challenge event, planning for 2021 GEM meeting, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge event, including an invited talk by Naoko Takahashi. The next part of the session will be for open discussion on potential 2021 GEM sessions. The final part of the session will be open for ULF wave research highlights. <br />
*Mike Hartinger, Brief Introduction to Challenge event<br />
*Naoko Takahashi, Relative contribution of ULF waves and whistler-mode chorus to the radiation belt variation during May 2017 storm<br />
*Ian Kelley, GPS TEC response during the ULF wave challenge event<br />
*Mike Hartinger, ULF wave geoelectric fields during the challenge event<br />
*All, Planning for 2021 GEM sessions<br />
*Bob Lysak, FLRs in Jupiter's magnetosphere<br />
*Toshi Nishimura, Upcoming conjunctions for ULF wave studies<br />
*Toshi Nishimura, PFISR and all-sky imager observations of Pc5 ULF waves during substorms<br />
*Francesco Lena, Detection of Hertz Frequency Multiharmonic Field Line Resonances at Low-L (L=1.1–1.5) During Van Allen Probe Perigee Passes<br />
<br />
== 2021 VGEM schedule ==<br />
UMEA will lead four sessions at the [https://gemworkshop.org/ 2021 Virtual GEM] workshop.<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''Recent Advances in ULF Wave Research'''<br />
This session will start with a short update on the ULF wave modeling challenge. The rest of the session will be for recent advances in ULF wave research, with priority given to presentations (1) with data or modeling results related to the challenge event (27-28 May 2017) or (2) discussions of ULF wave data-model comparisons.<br />
<br />
*Michelle Salzano, IPDP-Pi1B - modeling drift shell splitting<br />
*Aditi Upadhyay, Occurrence Characteristics of Electromagnetic Ion Cyclotron Waves at the Indian Antactrtic Station, Maitri<br />
*Yangyang Shen, Tens to hundreds of keV electron precipitation driven by kinetic Alfven waves during an electron injection<br />
*Chih-Ping Wang, Statistical results for Pi2 waves associated with the plasma sheet BBFs observed by THEMIS-RBSP pair with RBSP inside or outside the plasmasphere<br />
*Tom Elsden, Modelling the Varying Location of Field Line Resonances During Geomagnetic Storms<br />
*Denny Oliveira, Factors controlling shock-induced magnetospheric ULF waves<br />
*Short Oral Summaries of Posters<br />
*Open Discussion<br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''The Future of ULF Wave Research'''<br />
<br />
Hosted by Ayomide Olabode<br />
<br />
This session will begin with a review of the ULF wave FG’s original goals, research topics covered in the last 5 years and related activities, and unresolved questions and research objectives. The remainder of the session is open for 1-2 slide presentations on major unresolved questions in ULF wave research. We particularly encourage presentations (1) exploring topics that could be addressed by current/future GEM FG or decadal survey white paper, (2) highlighting major questions or obstacles preventing progress in ULF wave research (e.g., missing data in a critical region, missing theory/modeling component), (3) discuss how ULF wave researchers can best take advantage of future satellite missions, ground-based infrastructure, computing advances/big data/AI, and modeling/theory advances. <br />
<br />
*Mike Hartinger, Retrospective on the ULF wave focus group<br />
*Martin Archer, Surface Waves<br />
*Tom Elsden, 3D FLRs<br />
*Alexander Drozdov, Radial Diffusion<br />
*Ayomide Olabode and Michelle Salzano, Ground Magnetic Perturbations<br />
*Mark Engebretson, Pc1 waves / MMS k-vector technique<br />
*Xueling Shi, Applications of TEC observations<br />
*Open discussion, walk-in presentations welcome<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Tuesday, July 27, 2021<br />
<br />
'''ULF Wave M-I Coupling Processes'''<br />
This session is joint with the IEMIT FG. The session will begin with a review of the role of ULF waves on M-I coupling. The remainder of the session is open for 5-min presentations on ULF wave topics related to M-I coupling, e.g., auroral acceleration, particle precipitation, geomagnetic perturbations, GICs, etc. More questions and discussions will be left to the end.<br />
<br />
*Hui Zhang, Role of ULF waves in M-I coupling<br />
*Chaosong Huang, Global Pc5 pulsations<br />
*Tetsuo Motoba, Daytime Pc5 Diffuse Auroral Pulsations and Their Association With Outer Magnetospheric ULF Waves<br />
*Anton Artemyev, ULF driven precipitations as observed by ELFIN<br />
*Mark Engebretson, Magnetic perturbation events related to GICs<br />
*Denny Oliveira, IP shock impact angle control of local intense dB/dt variations during substorm<br />
*Xueling Shi, Sources of Intense Geoelectric Fields in the United States<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Friday, July 30, 2021<br />
<br />
'''Coupling Between ULF Waves and Cold Plasma'''<br />
<br />
Hosted by Rachel Rice<br />
<br />
This session is joint with the Cold Plasma FG. The session will begin with a review of mechanisms that couple cold plasma populations to ULF waves by Richard Denton. The remainder of the session is for contributed presentations describing (1) recent advances in our understanding of cold plasma interactions with ULF waves and (2) outstanding questions that could be discussed in future cold plasma FG sessions.<br />
<br />
*Richard Denton, Coupling Between ULF Waves and Cold Plasma<br />
*Alex Degeling, Modeling ULF Waves Trapped in a Plasmaspheric Density Plume <br />
*Eun Hwa Kim, Can Electromagnetic Ion Cyclotron Waves Propagate to the Ground?: 2D Full Wave Simulation<br />
*Bob Lysak, Relation of plasmaspheric cavity modes to Pi2 pulsations in an asymmetric plasmasphere<br />
*Yixin Hao, ULF wave-cold plasma interaction<br />
*Mike Hartinger, The relationship between global ULF wave properties and radial Alfven speed profile<br />
<br />
== 2021 Mini-GEM ==<br />
<br />
Recent findings in various areas of EMIC wave research<br />
<br />
Time: 5:30-7:00 CST, Sunday, December 12, 2021<br />
The session will take place in Hilton Garden Inn New Orleans Convention Center (1001 South Peters Street New Orleans, LA 70130), in Room Anzalea. Virtual participants are welcome to use the following zoom link: https://auburn.zoom.us/j/85948889952?pwd=bjdKQStVWmtRaUZWR1JHeEhSYnp2QT09<br />
<br />
Presentations:<br />
*Justin H. Lee, MMS measurements of cold and hot ion composition and EMIC waves<br />
*Kristine Sigsbee, Statistics of Electromagnetic Ion Cyclotron (EMIC) Rising Tones <br />
*Michael Hartinger, Short overview of open questions<br />
*Open discussion</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=FG:_ULF_Wave_Modeling,_Effects,_and_Applications&diff=5507FG: ULF Wave Modeling, Effects, and Applications2021-12-12T15:04:24Z<p>Mdhartin: /* 2021 Mini-GEM */</p>
<hr />
<div>''Focus Group Leaders:''<br />
* Michael Hartinger, Space Science Institute (mhartinger@spacescience.org)<br />
* Kazue Takahashi, Applied Physics Laboratory<br />
* Alexander Drozdov, UCLA<br />
* Maria Usanova, University of Colorado<br />
* Brian Kress, University of Colorado and NOAA-NCEI<br />
* Xueling Shi, Virginia Tech<br />
<br />
Focus Group term: 2016-2021<br />
<br />
Join the discussion on [https://gemworkshop.slack.com/archives/C016U8PA7TJ Slack], including discussion related to the 2020 GEM and 2021 miniGEM meetings.<br />
<br />
== Science Questions ==<br />
Our group aims to address the following broad science questions: What mechanisms excite ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in Magnetosphere-Ionosphere coupling?<br />
<br />
== Focus Group Proposal ==<br />
[http://gem.epss.ucla.edu/mediawiki/FGproposals/Hartinger-UMEA.pdf ULF Wave Modeling, Effects, and Applications (UMEA)] (December 2015)<br />
<br />
== ULF wave modeling challenge ==<br />
<br />
One part of the ULF wave modeling challenge involves running several global MHD simulation codes with identical, idealized solar wind driving conditions (sinusoidal density variation), then comparing the resulting global ULF wave properties and discussing differences in the context of differing boundary conditions, grids, etc. More details can be found here: [http://ccmc.gsfc.nasa.gov/challenges/ULF/ ULF wave modeling challenge at CCMC]<br />
<br />
Another part of the ULF wave modeling challenge involves data-model comparisons during specific events. At the 2017 GEM and mini-GEM meetings several [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing challenge events] were proposed, including two [https://drive.google.com/open?id=1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI 2017 events].<br />
<br />
We have selected the [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing 27-28 May 2017 storm event] for the ULF wave modeling challenge due to favorable solar wind coverage and availability of numerous satellites (MMS, ARASE, THEMIS, RBSP, Cluster, GOES, ...) and ground-based observations for global context and multi-point wave observations. We will be continuously updating this [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing overview presentation] with observation and modeling results. Model output and observations for the challenge event - including global densities from the NURD model - can be obtained [https://drive.google.com/drive/folders/1Bk9vJtbEHd-vSuYqr3UG9NGCqaBn69hw?usp=sharing here]. If you would like to add additional observations/model output to the google drive or overview pdf, please contact the co-chairs.<br />
<br />
CCMC has run several global MHD simulation codes using the driving conditions of the ULF wave challenge event. At the 2019 GEM meeting and future GEM/mini-GEM meetings, we plan data-model comparisons to identify where model/data don't agree and discuss these differences in the context of incorrect boundary conditions (e.g., compare model ionosphere to local PFISR-derived conductivities), missing physics, numerical dissipation, etc. Please contact CCMC/Lutz Rastaetter and model developers before using this simulation output in publications:<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_SWMF_040319_1 Space Weather Modeling Framework simulation], IMF Bx=0 (other parameters as in event). Full 2-day event, 3D output every 15s, virtual ground magnetometer. If you haven't used CCMC visualization tools before, be aware that you shouldn’t submit multiple visualization requests at the same time, as this could crash CCMC server for these large 3D files. Instead, request a batch process or wait for the first visualization request to complete. The easiest/fastest visualization is to follow the link above and scroll down until you see the virtual ground magnetometer and satellites list. Click on the magnetometer/satellite of interest, then select which parameter(s) to display/download. <br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_1 OpenGGCM run 1] – IMF Bx = -7 nT. Smaller time range available on 28 May 0400-1000, only virtual ground magnetometer from POKR/CMO available now. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_1 Full results including virtual satellite.]<br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_2 Open GGCM run 2] – IMF Bx = 0 nT (as in SWMF simulation). Same format as other OpenGGCM simulation. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_2 Full results including virtual satellite.]<br />
<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_LFM_051519_2 LFM simulation]<br />
<br />
== ULF wave HGSO event coordination ==<br />
Our group is helping coordinate analysis of conjunction events for ULF wave studies, including requesting instrument operation modes favorable for ULF wave analysis.<br />
<br />
The [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] 0400-0800 UT conjunction event includes several satellites (THEMIS, Cluster, Van Allen Probes, GOES, Geotail, FIREBIRD, METOP, POES, DMSP) in the pre-midnight sector during a conjunction with the Poker Flat Incoherent Scatter Radar and several SuperDARN radars. PFISR was operating throughout the conjunction, several SuperDARN radars were in high resolution sampling modes, and several satellites were operating in fast survey/burst mode. The conjunction is favorable for modeling and observation studies of magnetosphere-ionosphere coupling via ULF waves, wave-particle interactions, global ULF wave properties, and many other topics. [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing This pdf] summarizes preliminary results<br />
<br />
Several web-based tools are available for identifying future conjunctions, including [https://ergsc.isee.nagoya-u.ac.jp/analysis/index.shtml.en upcoming conjunctions between ARASE and Van Allen Probes/ground] and conjunctions between [https://swarm-aurora.com/conjunctionFinder/ SWARM/all-sky cameras].<br />
<br />
'''There are also many specialized, web-based tools for ULF wave analysis (please contact FG co-chairs to add to this list):'''<br />
<br />
*SuperMAG ground-based magnetometer [http://supermag.jhuapl.edu/rBrowse/?start=2001-01-30T05%3A00%3A00.000Z&step=14400 global ULF wave plots]<br />
<br />
*CARISMA ground-based magnetometer [http://www.carisma.ca/carisma-data/fgm-pc1-power-spectra Pc1 power spectra] and [http://www.carisma.ca/carisma-data/fgm-pc5-power-spectra Pc5 power spectra]<br />
<br />
*Augsburg College/UNH Arctic and Antarctic [http://space.augsburg.edu/searchcoil/index.html search coil magnetometer survey plots] <br />
<br />
*Augsburg College (hosted by ViRBO) [http://virbo.org/Augsburg/ULF ULF wave index]<br />
<br />
*[http://vt.superdarn.org/tiki-index.php?page=DaViT+DynFFT SuperDARN wave analysis] and [http://vt.superdarn.org/tiki-index.php?page=Data+Inventory identification of high time-resolution SuperDARN beams]<br />
<br />
*THEMIS satellite fluxgate magnetometer [http://themis.ssl.berkeley.edu/summary.php?year=2014&month=05&day=11&hour=0024&sumType=thmfgmdyn&type=themislinfgl wave survey plots]<br />
<br />
*National Institute of Polar Research inter-hemispheric comparisons of Syowa/Iceland [http://iugonet0.nipr.ac.jp/web/induction/ induction magnetometer spectra]<br />
<br />
*[http://mist.nianet.org/Satellite_Conjunctions/ Inter-hemispheric comparisons] during satellite conjunctions with Arctic(DTU Space)/Antarctic(Virginia Tech) magnetometers<br />
<br />
*[http://kho.unis.no/uaf_msp.htm Meridian Scanning Photometer plots] from [http://kho.unis.no/ UNIS/Kjell Henriksen Observatory], for context on open-closed boundary and ULF modulation of the aurora<br />
<br />
== Summary Reports for GEM workshops ==<br />
[https://drive.google.com/file/d/1QLH8FcKm3-f25aLwoetOuYJGZu5sPgN3/view?usp=sharing 2016 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1SRIv6Gn-NNnqGPHGvjvZQcdDml2GQpv_/view?usp=sharing 2017 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1clzFHWrxC9hvYf9kECJx4bPn9xn8WwsG/view?usp=sharing 2018 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1_fLwZFCLBTBHnq8HkaFPWUvaIY81E-t0/view?usp=sharing 2019 UMEA FG report]<br />
<br />
== 2016 Mini-GEM schedule ==<br />
UMEA will hold one session at the [http://www.cpe.vt.edu/gem-mini/ mini-GEM workshop]: ULF wave modeling, effects and applications updates<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 11, 2016<br />
<br />
'''Location''': Oregon Room, Holiday Inn Golden Gateway<br />
<br />
'''Schedule:'''<br />
<br />
'''First Half (12:00 – 12:45): 3 talks (~15 min each):'''<br />
<br />
*1. Mike Hartinger -- [http://gem.epss.ucla.edu/mediawikiwiki/images/7/7c/UMEAoverview_miniGEM2016.pdf Overview of UMEA current activities, discussion of future plans]<br />
<br />
*2. Lutz Rastaetter -- ULF wave modeling challenge at CCMC<br />
<br />
*3. Robert Rankin -- Modeling the global properties and ground-based signatures of ULF waves and wave-particle interactions<br />
<br />
'''Second Half (12:45 – 13:30): (5 minutes each, 1-2 slides, order of talks may change):'''<br />
<br />
*1. Xueling Shi -- SuperDARN THEMIS Mode Data Tracker & ULF Wave Detection<br />
<br />
*2. Richard Denton -- Mass density inferred from Alfven wave frequencies measured by RBSP<br />
<br />
*3. Lars Daldorff -- ULF waves, particle transport and energization in global MHD simulations with plasmasphere<br />
<br />
*4. Alexander Drozdov -- Dependence of radiation belt simulations to assumed radial diffusion rates tested for two empirical models of radial transport<br />
<br />
*5. Bob Lysak -- Quarter Wavelength Modes<br />
<br />
*6. Walk-ins<br />
<br />
== 2017 GEM meeting schedule ==<br />
UMEA will hold four sessions session at the 2017 GEM meeting<br />
<br />
'''UMEA Update and plans, general discussion of ULF wave modeling and observations''': 10:30-12:15, Monday, June 19, Port VI-VIII<br />
<br />
*1. Michael Hartinger -- [https://drive.google.com/file/d/0B57bC_V89WW6dnBCbmFFSkFURUk/view?usp=sharing UMEA update]<br />
<br />
*2. Toshi Nishimura -- PFISR measurements during the 2 May 2017 HGSO event<br />
<br />
*3. Xueling Shi -- [https://drive.google.com/file/d/0B57bC_V89WW6OUcyNGNWM0piWnc/view?usp=sharing A Survey of Ionospheric ULF Wave Signatures in SuperDARN Data: Occurrence Statistics and Driving Mechanisms]<br />
<br />
*4. Tetsuo Motoba -- Dayside Auroral Pulsations<br />
<br />
*5. Brian Kress and Rob Redmon -- Newly Available GOES 8-16 Particle and Magnetic Field Measurements<br />
<br />
*6. Dick Wolf -- Theory of magnetospheric buoyancy waves<br />
<br />
<br />
'''ULF wave interactions with the radiation belt and ring current populations''': 1:30-3:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Rualdo Soto-Chavez -- Generation of Pc5-ULF wave by the drift-mirror instability<br />
<br />
*2. Zhiyang Xia -- [https://drive.google.com/file/d/0B57bC_V89WW6Y1VQRXJKd3Qya3c/view?usp=sharing Eigenmode analysis of compressional poloidal modes in a self-consistent magnetic field]<br />
<br />
*3. Mark Engebretson -- [https://drive.google.com/file/d/0B57bC_V89WW6QlM3LU9lTVVwZ1E/view?usp=sharing Statistical study of the upper frequency cutoff of helium band EMIC waves observed by the Van Allen Probes]<br />
<br />
*4. Alexander Drozdov -- Radial diffusion and EMIC waves in the long-term simulation and in the case study<br />
<br />
*5. Seth Claudepierre -- Global MHD simulations driven by idealized Alfvenic fluctuations in the solar wind<br />
<br />
*6. Michael Hartinger -- Radiation belt response to large scale, monochromatic ULF waves: LANL-GEO observations<br />
<br />
<br />
'''ULF wave modeling, including CCMC modeling challenge, Joint with MMV''': 3:30-5:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Lutz Rastaetter -- CCMC ULF wave modeling challenge update and challenge events<br />
<br />
*2. Scot Elkington -- [https://drive.google.com/file/d/0B57bC_V89WW6WUxJcGNqbUU2bzA/view?usp=sharing ULF wave activity and diffusion coefficients during QARBM challenge events], [https://drive.google.com/file/d/0B3MAHZknMumcem40dTVyNVRFbE0/view?usp=sharing Ashar F. Ali’s write-up on Event-Specific Radial Diffusion Coefficients Derived Using RBSP EMFISIS and EFW Data]<br />
<br />
*3. Katariina Nykyri -- KHI challenge events<br />
<br />
*4. All -- Open Discussion of Challenge Events<br />
<br />
*5. Doga Ozturk -- Effects of Increased Solar Wind Dynamic Pressure on the Coupled M-I system under different IMF By<br />
<br />
*6. Kazue Takahashi -- Cavity mode Van Allen Probe observations<br />
<br />
*7. Bob Lysak -- Cavity mode models<br />
<br />
*8. Tom Elsden -- [https://drive.google.com/file/d/0B57bC_V89WW6SDNnYjdwSVM3Y3c/view?usp=sharing The Theoretical Foundation of 3D Alfven Resonances: Time Dependent Solutions]<br />
<br />
<br />
'''Magnetosphere-Ionosphere coupling processes associated with localized disturbances caused by dayside kinetic phenomena: Joint with “Dayside Kinetic Processes…” and “Testing proposed links…”''': 3:30-5:00, Tuesday, June 20, Port VI-VIII<br />
<br />
*1. Peter Chi -- Magnetospheric and ionospheric responses to a localized disturbance: The macroscopic view<br />
<br />
*2. Hui Zhang -- Magnetospheric ULF waves generated by foreshock transients<br />
<br />
*3. Hui Zhang -- Modeling challenges in simulating HFA geoeffects<br />
<br />
*4. Boyi Wang -- Optical signatures of dayside ULF waves during magnetosheath high-speed jets<br />
<br />
*5. Katariina Nykyri -- The effect of magnetosheath seed spectrum on KH evolution and associated mass transport<br />
<br />
*6. Kyle Murphy -- A statistical study of discrete ULF wave power observed by GOES<br />
<br />
== 2017 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2017 mini-GEM] workshop<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 10, 2017, Canal/50<br />
<br />
'''ULF wave modeling challenges'''<br />
Discussion of final plans for the CCMC ULF wave modeling challenge with idealized drivers, as well as open discussion of new challenges involving data-model and model-model comparisons during [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing specific events]. Please come with 1-2 slides showing examples of such comparisons, ideas for improving ULF wave models, and/or ideas for specific modeling challenges/sessions relevant to the FG science questions.<br />
<br />
*1. 12:00-12:30 Overview of CCMC ULF wave modeling challenge with idealized driving conditions, description of challenge events and targets proposed during 2017 GEM meeting and November modeling telecon (Michael Hartinger, Lutz Rastaetter)<br />
*2. 12:30-13:30 [https://drive.google.com/file/d/1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI/view?usp=sharing Open discussion of challenge events and targets (Allison Jaynes,] Robert Rankin), select challenge event to be analyzed at 2018 GEM<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 10, 2017, Canal/50<br />
<br />
'''Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
Discussion of HGSO coordination for ULF wave studies. This includes updates on the [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] conjunction event followed by an open discussion of conjunctions and datasets that are particularly useful for ULF wave studies, including upcoming RBSP-ERG-ground conjunctions. Please come with 1-2 slides showing examples of datasets and past/upcoming conjunctions ideal for addressing the FG science questions: What excites ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in MI coupling? We welcome discussion from both modelers and observers of the types of conjunctions and observations that are most needed to address these questions.<br />
<br />
*1. 13:50-14:20 Recently available datasets and conjunctions for ULF wave studies (Chih-Ping Wang, Xueling Shi, Sana Qamar, Rob Redmon)<br />
*2. 14:20-14:35 Updates on 2 May 2017 conjunction event (Toshi Nishimura, Michael Hartinger)<br />
*3. 14:35-15:20 Upcoming ARASE-RBSP conjunctions (Yoshi Miyoshi), Open Discussion of HGSO coordination for ULF wave studies (Toshi Nishimura, Kazue Takahashi)<br />
<br />
== 2018 GEM meeting schedule ==<br />
UMEA will hold [https://drive.google.com/file/d/1uh-ZOICfOBzNs9KLe3saFMnY9P-oqV9R/view?usp=sharing four sessions] at the 2018 GEM meeting. <br />
<br />
'''ULF waves during particle injections and dipolarizations, joint with Dipolarization and Substorm FG''': 10:30-12:00, Monday, June 18<br />
<br />
*1. Discussion of Session Topic<br />
<br />
*2. Bob Lysak -- [https://drive.google.com/file/d/1w8o5aGYbLsIEy2YmaoosF3WNeWTuLE59/view?usp=sharing Ionospheric Conductivity Effects on Pi2 Pulsations]<br />
<br />
*3. Mike Hartinger -- [https://drive.google.com/file/d/1tcJgspMQDkhPPvSTng4eZP7h-j7jvVR7/view?usp=sharing Pi2 waves during an extended period with stable plasmapause location and variable geomagnetic activity]<br />
<br />
*4. Toshi Nishimura -- Ionosphere observations of Pc5 ULF waves during 2018 HGSO conjunctions<br />
<br />
*5. Xueling Shi -- Long-lasting poloidal ULF waves observed by multiple satellite and SuperDARN HF radars<br />
<br />
*6. Jian Yang -- New RCM-I simulation results for buoyancy waves<br />
<br />
*7. Dick Wolf -- [https://drive.google.com/file/d/1vTkH_lmgXCcvkAYU6HgO_R5ZgIdGji3O/view?usp=sharing Theory of Buoyancy Waves] <br />
<br />
*8. Yan Song -- What Causes the Substorm Expansion Phase and Associated ULF Waves?<br />
<br />
<br />
'''Recent advances in ULF wave research''': 1:30-3:00, Monday, June 18 <br />
<br />
*1. [https://drive.google.com/file/d/1ms9kDYlBhCnxti8z9o9Lx8y0PPmkWu_-/view?usp=sharing Overview of focus group goals and recent progress]<br />
<br />
*2. Brief ULF wave poster overviews (Tuesday posters)<br />
<br />
*3. Kazue Takahashi -- Observation of nightside ULF waves by RBSP and Arase<br />
<br />
*4. Tom Elsden -- Broadband Excitation of 3D Alfven Resonances (FLRs) in an MHD Waveguide<br />
<br />
*5. Boyi Wang -- 2-D structure of foreshock driven Pc5 ULF waves observed by the THEMIS satellites and South Pole imager<br />
<br />
*6. Xiaochen Shen -- Foreshock transient-driven ultra-low frequency (ULF) waves with dawn-dusk asymmetry of wave power<br />
<br />
*7. Chih-Ping Wang -- ULF waves possibly driven by tailward propagation of foreshock perturbations<br />
<br />
*8. Allison Jaynes -- [https://drive.google.com/file/d/1EC3yPvda8fA0LUr9qTfszluNDLs6LdHT/view?usp=sharing Fast diffusion of ultra-relativistic electrons in the outer radiation belt: 17 March 2015 storm event]<br />
<br />
*9. Rualdo Soto -- The Drift-Mirror instability in Earth's inner magnetosphere<br />
<br />
*10. Martin Archer/Mike Hartinger -- [https://drive.google.com/file/d/1t4fmiiZP9wdJ-40TISEC7BuicEd64m7W/view?usp=sharing Results from Sonification and Citizen Science of Magnetospheric ULF waves]<br />
<br />
<br />
'''EMIC wave generation, propagation, and interactions''': 3:30-5:00, Monday, June 18 (discussion leaders: Alexander Drozdov and Maria Usanova)<br />
[https://drive.google.com/open?id=15rjO2UxK8sqdOfHXunDSLv5q-z51vwuD Session Summary]<br />
<br />
*1. Dedong Wang -- EMIC wave observations from Van Allen Probes and MMS<br />
<br />
*2. Mark Engebretson -- [https://drive.google.com/file/d/1jkhN45ezaeQyeAA7HmVuYOF_izjAMYra/view?usp=sharing Van Allen Probes, and ground based magnetometer observations of EMIC waves associated with a modest interplanetary shock]<br />
<br />
*3. Maria Usanova -- MMS Observations of Harmonic Electromagnetic Cyclotron Waves<br />
<br />
*4. Naritoshi Kitamura -- Direct measurements of energy transfer from hot H+ to EMIC waves by MMS<br />
<br />
*5. Bruce Fritz -- ELF Whistler Dependence on a Sunlit Ionosphere<br />
<br />
*6. Chae-Woo Jun -- EMIC waves associated with/without the injection inside/outside the plasmapause<br />
<br />
*7. Hyomin Kim -- Injection-associated EMIC waves<br />
<br />
*8. Sebastian Cervantes -- EMIC wave parameterization in radiation belt reanalysis<br />
<br />
*9. Maria Usanova -- Long-term correlation of EMIC wave activity and radiation belt flux variations<br />
<br />
*10. Alexander Drozdov -- The effects due to the EMIC waves in the VERB code modeling<br />
<br />
<br />
'''ULF wave modeling challenge, joint with MMV FG''': 3:30-5:00, Wednesday, June 20<br />
<br />
*1. Brief ULF wave poster overviews (Thursday posters)<br />
<br />
*2. Mike Hartinger: [https://drive.google.com/file/d/1g2cL_qaDbASLH5DoJ_auJKQCbG96sdQn/view?usp=sharing ULF wave modeling challenge event overview, discussion of challenge targets (continuing during session)]<br />
<br />
*3. Mariko Teramoto: ARASE ULF wave observations during challenge event<br />
<br />
*4. Sam Califf: [https://drive.google.com/file/d/1CvbVG2Dp8e6RokJE0501L8-LU9ipdUFT/view?usp=sharing GOES-14 and 16 observations during the ULF wave challenge event, Data Discussion]<br />
<br />
*5. Toshi Nishimura: [https://drive.google.com/file/d/1cavbwNU4LoAigIsGvGF_UtiTaM97dFtP/view?usp=sharing PFISR measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*6. Dogacan Su Ozturk: [https://drive.google.com/file/d/1MmP3D_4eeJbEVJzUyx8fAtFsG3b0grzy/view?usp=sharing The modeling study of the 27 March 2017 Event] <br />
<br />
*7. Xiaochen Shen: GEM Challenge Event: ULF wave-related electron and proton precipitation/negative dynamic pressure pulse driven EMIC wave<br />
<br />
*8. Tetsuo Motoba: [https://drive.google.com/file/d/1544ngYBXat-zUC1gZqo0lMVUZtYqxUqH/view?usp=sharing Auroral measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*9. Others discuss when their figures/summary plots in event overview pdf are presented…<br />
<br />
== 2018 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2018 mini-GEM] workshop<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF modulation of the aurora, Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
This session focuses on understanding a variety of mechanisms responsible for ULF modulations of the aurora. Eric Donovan will give a 30 minute invited presentation, with the rest of the session open for presentations and discussion on this topic. We welcome discussion of ULF aurora generation mechanisms and the types of conjunctions, observations, and models needed to understand the zoo of ULF auroral modulations. We also welcome discussion of upcoming observation campaigns/satellite conjunctions that would be particularly useful for ULF wave studies.<br />
<br />
*1. Eric Donovan<br />
*2. Tetsuo Motoba<br />
*3. Slava Pilipenko<br />
*4. Boyi Wang / Toshi Nishimura<br />
*5. Open discussion<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF wave modeling challenge and research highlights'''<br />
The first part of the session is for updates on the idealized ULF wave modeling challenge and potential 2019 GEM sessions. The next part of the session is for observation/model presentations relevant to the 27-28 May 2017 ULF wave challenge event and final selection of the modeling challenge targets – all types of models and observations welcome. The last part of the session will be open for 1 slide ULF wave modeling and observation research highlights. <br />
<br />
*1. [https://drive.google.com/file/d/1vqxxn3gYXfzDKABe9yRwMgR8vbKRua_j/view?usp=sharing 2019 GEM session ideas] (Mike Hartinger)<br />
*2. Idealized Modeling Challenge (Lutz Rastaetter)<br />
*3. ULF wave modeling challenge event updates: Rob Redmon/Sam Califf/Mike Hartinger (GOES magnetometer observations), Yoshi Miyoshi (Arase magnetic field observations), [https://drive.google.com/file/d/1B6DGHvAzUhBG79eUJWPsUD2BSjGhQrrw/view?usp=sharing Hyomin Kim (wave-particle interaction)], [https://drive.google.com/file/d/180iaBGrbCPf1rYy6uVZn8OsLTOFREqsD/view?usp=sharing Dong Lin (LFM simulations)]<br />
*4. General ULF wave modeling: [https://drive.google.com/file/d/10gUKitjDPnbV_g9r9CAHDFeE365wUQQd/view?usp=sharing Yaireska Collado-Vega (vortex identification/surface waves)], [https://drive.google.com/file/d/1kkGlYKoYHr7XZf5nT3kaXITUD3tpNynJ/view?usp=sharing Alex Degeling (ULF wave radiation belt interactions)] <br />
*5. Research highlights (1-slide): Rualdo Soto (Van Allen Probes and Cluster satellites’ observations of Pc 5 (mHz) magnetic pulsations), [https://drive.google.com/file/d/1V_Joz3psBQbCBoVKRYaOKdKIEoZ72WgQ/view?usp=sharing Xueling Shi (SuperDARN ULF waves)], Martin Archer (magnetopause surface eigenmodes), [https://drive.google.com/file/d/1Mmi3VfERKswG3dpYidVUgOQra2UG-9s2/view?usp=sharing Martin Archer (sonification)]<br />
<br />
== 2019 GEM meeting schedule ==<br />
<br />
UMEA will hold [https://drive.google.com/file/d/1KmH9XqxrisGH_g4s0ny7QDkutmv7tKlr/view?usp=sharing six sessions] at the 2019 GEM meeting, four joint with other focus groups. <br />
<br />
'''Recent advances in ULF wave research: Modeling''': 3:30-5:00, Monday, June 24 New Mexico room, joint with MMV. <br />
Discussion of advances in ULF wave research, with focus on modeling and modeling challenges (e.g., boundary conditions, grid resolution, missing physics). This includes models of the effects of ULF waves on inner magnetosphere dynamics and wave-particle interactions. We particularly encourage presentations focused on the ULF wave modeling challenge, including data-model comparisons for the 27-28 May 2017 challenge event.<br />
*Mike Hartinger, [https://drive.google.com/open?id=1Drkq9epsQWY4AjpV1EF-8Ci_kaKyN2jk FG updates]<br />
*Jesper Gjerloev, SuperMAG ULF updates<br />
*Tetsuo Motoba, High-time resolution SuperMAG ULF data products<br />
*Lutz Rastaetter, ULF wave modeling challenge<br />
*Maulik Patel, MHD test particle simulations of the 16 July 2017 shock compression of the dayside magnetopause <br />
*Bob McPherron, Pi 2 pulsations during the storm of May 27-29 2017, The Statistics of Pi 2 Pulsation Occurrence during a Major Magnetic Storm<br />
*Dong Lin, LFM simulations of surface waves during challenge event<br />
<br />
'''The ULF response to dayside transients with different temporal/spatial scales''': 10:30-12:00, Wednesday, June 26 Santa Fe room, discussion leader: Tom Elsden, joint with Dayside Kinetics and IHMIC. <br />
Dayside transient phenomena associated with kinetic scale processes cause a variety of ULF wave behaviour in the magnetosphere and further, contribute to significant magnetospheric asymmetries. The aim of this session is to bring together the expertise of the three focus groups listed above, to answer outstanding questions at the overlap of these disciplines. It is hoped that such a discussion should prove fruitful enough to generate a JGR commentary paper in this area. With this in mind, speakers in this session are encouraged to give their views as to the current state of the subject area, and how outstanding problems may be addressed in the future.<br />
* Tom Elsden - Session introduction and goals<br />
* Ferdinand Plaschke (invited) - An overview of dayside transients causing ULF waves<br />
* Tom Elsden - 3D ULF wave modeling with MHD<br />
* Boyi Wang - The role of magnetosheath high-speed jets in triggering magnetospheric Pc5 ULF waves<br />
* Bob Lysak - Ionospheric asymmetries and quarter-wave modes<br />
* Xueling Shi - Conjugate Observations of ULF Waves during an Extended Period of Radial IMF<br />
* Michael Hartinger - Localized magnetopause surface wave activity and [https://drive.google.com/open?id=1d8lDB-FPGa6VErL37aZz3xZSgpNvxbk0 modeling challenges]<br />
* Discussion<br />
<br />
'''ULF wave modeling challenges associated with Magnetosphere-Ionosphere-Thermosphere Coupling''': 3:30-5:00, Wednesday, June 26 Lumpkins Ballroon South, joint with IEMIT, discussion leader Doga Ozturk. <br />
ULF waves play important roles in M-I-T coupling, driving current systems that can lead to I-T system heating and geomagnetically induced currents. This session aims to bring together researchers from the ULF wave and M-I-T coupling research communities to discuss challenges associated with realistically modeling M-I-T coupling processes associated with these waves. The session will begin with a discussion of the ULF wave challenge event; comparisons between modeled / observed (PFISR) conductivities and modeled/observed ULF wave properties will be presented, and the community will be invited to discuss explanations for model/observation differences. The rest of the session is open for short presentations on ULF wave modeling challenges related to M-I-T coupling, including topics such as specifying conductivity and effect of conductivity on wave properties, effect of ionospheric boundary conditions in global simulations, boundary conditions and feedback between magnetosphere and ionosphere, capturing role of waves in ionospheric-thermospheric heating.<br />
# (Invited) Boyi Wang: Ionospheric modulation by Pc5 ULF waves and wave structure detected by PFISR<br />
# (Invited) Xiaojia Zhang / Anton Artemyev: ULF modulation of VLF waves and precipitation<br />
# Doga Ozturk: Update from GEM/CEDAR joint session, [https://drive.google.com/open?id=1WsSf4PFHiBo_iZ3za-bhUWKHFJd4MNQX ULF Wave activity and Meso-Scale electric field variability at high-latitude I-T system]<br />
# Anatoly Streltsov: ULF waves generated by the MI interactions near the plasmapause<br />
# Mergen Alimaganbetov: ULF waves observed in space and on the ground at high and low latitudes<br />
# Mark Engebretson: [https://drive.google.com/open?id=16WbDl3rnuehoifUqFj4oMw_Tn5WhEFlU Multi-Instrument Observations of Nighttime Impulsive Magnetic Events]<br />
# Bob Lysak: Modeling ionospheric conductance and ground magnetic fields<br />
# Yan Song: ULF wave, M-I coupling and Auroral formation.<br />
<br />
[https://drive.google.com/open?id=1wGpZPk086Zs54uWGtYiRjByPmVCFnsSv '''EMIC waves''']: 10:30-12:00, Thursday, June 27 New Mexico room, joint with Radiation Belt. <br />
The generation mechanisms of Electromagnetic Ion Cyclotron (EMIC) waves, their effects on energetic electrons and ions, and their propagation through the magnetosphere-ionosphere system are challenging topics that involve multiple GEM research areas. Despite several years of observations and improved global wave statistics, there are many unresolved questions that limit further investigation, modeling and prediction of dynamical processes in the inner magnetosphere involving EMIC waves. Hence, we invite short presentations that discuss recent findings in different areas of EMIC wave research and identify observations/models most needed to address unresolved questions.<br />
*Robert Allen, Outer magnetospheric EMIC wave source regions characterized by Cluster<br />
*Sarah Vines, EMIC waves in the outer magnetosphere: Observations of an off-equator source region<br />
*Justin Lee, [https://drive.google.com/open?id=1xlJfppvWgOC_JHy6QgPpptcI3GjkYuLC EMIC wave observations by MMS] <br />
*Chao Yue, The relationship between EMIC wave properties and proton distributions based on Van Allen Probes observations<br />
*Kristine Sigsbee, Simultaneous EMIC Wave Observations During a Van Allen Probes Conjunction<br />
*Hyomin Kim, [https://drive.google.com/open?id=1UmmYHxyIcH2FfQmRnffGNnCUNjH8S5qQ Observations of Particle Loss due to Injection-Associated EMIC Waves]<br />
*Yuri Shprits, Dips in PSD and how they are related to EMIC wave scattering<br />
*Richard Denton, Electromagnetic ion cyclotron waves in the dipole magnetosphere and pitch angle scattering of sub-MeV relativistic electrons by those waves<br />
*Qianli Ma, Pitch angle scattering of radiation belt electrons due to statistical EMIC wave spectra <br />
<br />
'''Recent advances in ULF wave research: Observations and HGSO coordination for ULF wave studies''': 1:30-3:00, Thursday, June 27 New Mexico room. <br />
Discussion of recent advances in ULF wave research, with focus on observations and a general discussion of Heliophysics/Geospace System Observatory coordination for ULF wave studies. We particularly encourage presentations describing (1) past or upcoming satellite conjunctions, (2) new data analysis tools, and/or (3) instrumentation/operation modes of interest to the ULF wave research community.<br />
*Seth Claudepierre/Matina Gkioulidou (invited), [https://drive.google.com/open?id=1bjENFjvkWSjLYA_EfFuTxhCyKtVlk7c1 Van Allen Probes: End of Mission and ULF wave studies]<br />
*Tetsuo Motoba, SuperMAG ULF wave tools<br />
*Sarah Vines, Determining EMIC wave vector properties through multi-point measurements: The wave curl analysis<br />
*Aaron Breneman, [https://drive.google.com/open?id=1NHlf9I_VV6vkx9id_NL4gE6YhEsSRxkG BARREL precipitation during solar wind driven ULF wave events] <br />
*Anatoly Streltsov, Effect of the Hall conductivity on generation of ULF waves<br />
*Mohammad Barani, [https://drive.google.com/open?id=1sCMVi0pbWsggpUUnotdl-4LO_hfGGFEc Estimating the Azimuthal Mode Structure of ULF Waves Based on Multiple GOES Satellite Observations]<br />
*Kazue Takahashi, L versus time structures of ground magnetic pulsations<br />
*Chih-Ping Wang, Earthward propagation of Pi2 waves<br />
<br />
'''ULF waves driven by wave-particle interactions and instabilities''': 3:30-5:00, Thursday, June 27 Lumpkins Ballroon South, discussion leaders: Xueling Shi and Hyomin Kim. <br />
Many ULF wave modes are closely related to instabilities and wave-particle interactions inside the magnetosphere: poloidal mode waves associated with particle injections, mirror/drift-mirror modes, buoyancy waves… These waves are often discussed in different contexts and in different GEM sessions. In addition, there have been relatively few studies of modeling internally generated ULF waves. The purpose of this session is to bring together modelers and observers to discuss the underlying processes that drive/damp these waves, their impact(s) on the M-I system (ring current, radiation belt, ionosphere,…), and the models/observations needed to better understand wave dynamics.<br />
*Xuzhi Zhou (invited), Acceleration of relativistic electrons by global-scale ULF waves<br />
*Tomotsugu Yamakawa (invited), [https://drive.google.com/open?id=1PEsq7oWVeXwwXn3JvE5ZvWQIIjfXwKRB Simulation of the excitation of storm-time Pc5 ULF waves by ring current ions based on the drift-kinetic model]<br />
*Frank Toffoletto, Normal Mode Analysis of Buoyancy Waves <br />
*Peter Chi, Observations of High-m Poloidal Waves along Magnetospheric Field Lines<br />
*Mike Hartinger, [https://drive.google.com/open?id=17do2Jxy01SJPmOloBxzTPID9ZzqaPGZI Observations of wave-particle interactions using MagEIS ultra-high resolution energy channels]<br />
*Jiang Liu, Ultralow Frequency Waves Deep Inside the Inner Magnetosphere Driven by Dipolarizing Flux Bundles, and their interaction with electrons<br />
*Kyle Murphy, TBD<br />
<br />
== 2019 Mini-GEM schedule ==<br />
UMEA will hold one session at the [https://gemworkshop.org/ 2019 mini-GEM] workshop<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 8, 2019, Nevada Room<br />
<br />
'''ULF wave modeling challenge event, HGSO coordination, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge and potential 2020 GEM sessions. The next part of the session is open for ULF wave research presentations discussing the ULF wave modeling challenge event or current/upcoming observation campaigns that are particularly useful for ULF wave studies. The last part of the session will be open for 1 slide ULF wave research highlights.<br />
<br />
*Mike Hartinger, [https://drive.google.com/open?id=1eQQc07g7nCTEGNwaTGesQx4ymIU6m815 UMEA updates and proposed sessions for 2020 GEM workshop]<br />
*Dong Lin, [https://drive.google.com/open?id=1SqiD1u69eyKNzLyrtvTWbMK05L5OrkrO LFM Simulations of ULF wave modeling challenge event]<br />
*Mohammad Barani, [https://drive.google.com/open?id=1fQAossqjQ-aBuGIBhDIW6I0_WEtHdQsF High-fidelity ULF wave azimuthal mode number structure estimation using MMS magnetometer observations], [https://www.youtube.com/watch?reload=9&v=W5Vya8pCjNE&t=1s link to related presentation on YouTube]<br />
*Chih-Ping Wang, [https://drive.google.com/open?id=19ugyLwyIp4YRuLpDuzT330IdbbFppQcr Inward propagation of Pi2 wave from plasma sheet to inner magnetosphere: THEMIS-GOES conjunctions]<br />
*Walk-ins<br />
<br />
== 2020 VGEM schedule ==<br />
UMEA will hold two sessions at the [https://gemworkshop.org/ 2020 Virtual GEM] workshop<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave modeling challenge event'''<br />
(Hosted by Xueling Shi)<br />
The first part of the session is for updates on research related to the challenge event (27-29 May 2017 storm): All modeling and observation talks welcome as long as they're related to this event. The last part of the session will be for short research highlights and oral summaries of posters.<br />
<br />
*Mike Hartinger (10 minutes), [https://drive.google.com/file/d/1Z5-g7-f-iKfpuWD03WVkA3Q2Rb9mbQfe/view?usp=sharing 2020 UMEA updates and overview of challenge event] <br />
*Simone Di Matteo (15 minutes), [https://drive.google.com/file/d/1acsSyIszg95muYurOkn0RmW0btblS3Ja/view?usp=sharing On some features characterizing the plasmasphere–magnetosphere–ionosphere system during the geomagnetic storm of 27 May 2017] <br />
*Bob McPherron (15 minutes), [https://drive.google.com/file/d/1pnqs49KamZF2BLgMdaoOroktmkBNnj1c/view?usp=sharing ULF wave activity at synchronous orbit during the May 27-29, 2017 Magnetic storm]<br />
*Boyi Wang (15 minutes), Ionospheric modulation by storm-time Pc5 ULF waves and wave structure detected by PFISR-THEMIS conjunctions<br />
*Lutz Rastaetter (15 minutes), [https://drive.google.com/file/d/1H9nTOrpQHX0NEau1eSktWjWM0KYbyfnM/view?usp=sharing Idealized ULF wave modeling challenge: high-resolution runs] <br />
*Mark Engebretson (5 minutes), [https://drive.google.com/file/d/1kvWyYe52OkTB7uUmKWRDSO305Jina-Yy/view?usp=sharing Nighttime magnetic perturbation events observed in Arctic Canada: Superposed epoch analysis]<br />
*Jinxing Li (5 minutes), Electron microinjections in association with compressional ULF waves: MMS observations<br />
*Xiaojia Zhang (5 minutes), [https://drive.google.com/file/d/1fKwf0t1ohDZIxF5NPtsgGKNP0cBEqECn/view?usp=sharing Spreading of Magnetopause-Generated Ultra-Low-Frequency Perturbations and the Associated Whistler Modulation] <br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave research highlights'''<br />
These will be contributed talks with priority given to graduate students and postdocs. The rationale is that virtual GEM will not provide the same type of networking opportunities as in-person GEM, and we'd like to balance this somewhat by giving more opportunities to students/postdocs to present their work on ULF waves.<br />
<br />
All presentations are 10 minutes including discussion:<br />
*Rachel Rice, Characteristics of Kelvin-Helmholtz Waves as Observed by MMS<br />
*Dong Lin, Idealized ULF wave simulations with GAMERA-RCM model<br />
*Boyi Wang, The interaction between ions and the ULF waves driven by a foreshock transient<br />
*Jayashree Bulusu, [https://drive.google.com/file/d/1YyRAo0I7Cf4-buxhTBXLxYaTWw7GX6SZ/view?usp=sharing Investigation of Pi2s during super quiet conditions from low and mid-latitudes]<br />
*Changzhi Zhai, High-m Poloidal ULF Wave Signatures in GPS TEC Data<br />
*Simone Di Matteo, [https://drive.google.com/file/d/1yYaidiu7O4a0Z8PeQXELiyatB03hJQyX/view?usp=sharing Power Spectral Density Background Estimate and Signal Detection via the Multitaper Method] <br />
*Yixin Hao, [https://drive.google.com/file/d/1iIf5QpLE9t7IThiIPNwhCoRHrbFDoR8R/view?usp=sharing Simultaneous observations of localized and global drift resonance]<br />
*Mohammad Barani, [https://drive.google.com/file/d/1it2y8JXJzrbjmt56MWia7ffbei63gIwC/view?usp=sharing Effects of realistic mode number structure on radial diffusion estimation]<br />
<br />
== 2021 January Virtual Mini-GEM schedule ==<br />
UMEA will hold one session at the Virtual Mini-GEM Worskhop.<br />
<br />
'''Time''': 12:00-14:00 US Eastern Time, Friday, January 22, 2021<br />
<br />
'''ULF wave modeling challenge event, planning for 2021 GEM meeting, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge event, including an invited talk by Naoko Takahashi. The next part of the session will be for open discussion on potential 2021 GEM sessions. The final part of the session will be open for ULF wave research highlights. <br />
*Mike Hartinger, Brief Introduction to Challenge event<br />
*Naoko Takahashi, Relative contribution of ULF waves and whistler-mode chorus to the radiation belt variation during May 2017 storm<br />
*Ian Kelley, GPS TEC response during the ULF wave challenge event<br />
*Mike Hartinger, ULF wave geoelectric fields during the challenge event<br />
*All, Planning for 2021 GEM sessions<br />
*Bob Lysak, FLRs in Jupiter's magnetosphere<br />
*Toshi Nishimura, Upcoming conjunctions for ULF wave studies<br />
*Toshi Nishimura, PFISR and all-sky imager observations of Pc5 ULF waves during substorms<br />
*Francesco Lena, Detection of Hertz Frequency Multiharmonic Field Line Resonances at Low-L (L=1.1–1.5) During Van Allen Probe Perigee Passes<br />
<br />
== 2021 VGEM schedule ==<br />
UMEA will lead four sessions at the [https://gemworkshop.org/ 2021 Virtual GEM] workshop.<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''Recent Advances in ULF Wave Research'''<br />
This session will start with a short update on the ULF wave modeling challenge. The rest of the session will be for recent advances in ULF wave research, with priority given to presentations (1) with data or modeling results related to the challenge event (27-28 May 2017) or (2) discussions of ULF wave data-model comparisons.<br />
<br />
*Michelle Salzano, IPDP-Pi1B - modeling drift shell splitting<br />
*Aditi Upadhyay, Occurrence Characteristics of Electromagnetic Ion Cyclotron Waves at the Indian Antactrtic Station, Maitri<br />
*Yangyang Shen, Tens to hundreds of keV electron precipitation driven by kinetic Alfven waves during an electron injection<br />
*Chih-Ping Wang, Statistical results for Pi2 waves associated with the plasma sheet BBFs observed by THEMIS-RBSP pair with RBSP inside or outside the plasmasphere<br />
*Tom Elsden, Modelling the Varying Location of Field Line Resonances During Geomagnetic Storms<br />
*Denny Oliveira, Factors controlling shock-induced magnetospheric ULF waves<br />
*Short Oral Summaries of Posters<br />
*Open Discussion<br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''The Future of ULF Wave Research'''<br />
<br />
Hosted by Ayomide Olabode<br />
<br />
This session will begin with a review of the ULF wave FG’s original goals, research topics covered in the last 5 years and related activities, and unresolved questions and research objectives. The remainder of the session is open for 1-2 slide presentations on major unresolved questions in ULF wave research. We particularly encourage presentations (1) exploring topics that could be addressed by current/future GEM FG or decadal survey white paper, (2) highlighting major questions or obstacles preventing progress in ULF wave research (e.g., missing data in a critical region, missing theory/modeling component), (3) discuss how ULF wave researchers can best take advantage of future satellite missions, ground-based infrastructure, computing advances/big data/AI, and modeling/theory advances. <br />
<br />
*Mike Hartinger, Retrospective on the ULF wave focus group<br />
*Martin Archer, Surface Waves<br />
*Tom Elsden, 3D FLRs<br />
*Alexander Drozdov, Radial Diffusion<br />
*Ayomide Olabode and Michelle Salzano, Ground Magnetic Perturbations<br />
*Mark Engebretson, Pc1 waves / MMS k-vector technique<br />
*Xueling Shi, Applications of TEC observations<br />
*Open discussion, walk-in presentations welcome<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Tuesday, July 27, 2021<br />
<br />
'''ULF Wave M-I Coupling Processes'''<br />
This session is joint with the IEMIT FG. The session will begin with a review of the role of ULF waves on M-I coupling. The remainder of the session is open for 5-min presentations on ULF wave topics related to M-I coupling, e.g., auroral acceleration, particle precipitation, geomagnetic perturbations, GICs, etc. More questions and discussions will be left to the end.<br />
<br />
*Hui Zhang, Role of ULF waves in M-I coupling<br />
*Chaosong Huang, Global Pc5 pulsations<br />
*Tetsuo Motoba, Daytime Pc5 Diffuse Auroral Pulsations and Their Association With Outer Magnetospheric ULF Waves<br />
*Anton Artemyev, ULF driven precipitations as observed by ELFIN<br />
*Mark Engebretson, Magnetic perturbation events related to GICs<br />
*Denny Oliveira, IP shock impact angle control of local intense dB/dt variations during substorm<br />
*Xueling Shi, Sources of Intense Geoelectric Fields in the United States<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Friday, July 30, 2021<br />
<br />
'''Coupling Between ULF Waves and Cold Plasma'''<br />
<br />
Hosted by Rachel Rice<br />
<br />
This session is joint with the Cold Plasma FG. The session will begin with a review of mechanisms that couple cold plasma populations to ULF waves by Richard Denton. The remainder of the session is for contributed presentations describing (1) recent advances in our understanding of cold plasma interactions with ULF waves and (2) outstanding questions that could be discussed in future cold plasma FG sessions.<br />
<br />
*Richard Denton, Coupling Between ULF Waves and Cold Plasma<br />
*Alex Degeling, Modeling ULF Waves Trapped in a Plasmaspheric Density Plume <br />
*Eun Hwa Kim, Can Electromagnetic Ion Cyclotron Waves Propagate to the Ground?: 2D Full Wave Simulation<br />
*Bob Lysak, Relation of plasmaspheric cavity modes to Pi2 pulsations in an asymmetric plasmasphere<br />
*Yixin Hao, ULF wave-cold plasma interaction<br />
*Mike Hartinger, The relationship between global ULF wave properties and radial Alfven speed profile<br />
<br />
== 2021 Mini-GEM ==<br />
<br />
UMEA will hold a joint session with the RB FG at the Mini-GEM Worskhop. We will run the session in hybrid mode.<br />
<br />
Recent findings in various areas of EMIC wave research<br />
<br />
Time: 5:30-7:00 CST, Sunday, December 12, 2021<br />
The session will take place in Hilton Garden Inn New Orleans Convention Center (1001 South Peters Street New Orleans, LA 70130), in Room Anzalea. Virtual participants are welcome to use the following zoom link: https://auburn.zoom.us/j/85948889952?pwd=bjdKQStVWmtRaUZWR1JHeEhSYnp2QT09<br />
<br />
Presentations:<br />
*Justin H. Lee, MMS measurements of cold and hot ion composition and EMIC waves<br />
*Kristine Sigsbee, Statistics of Electromagnetic Ion Cyclotron (EMIC) Rising Tones <br />
*Michael Hartinger, Short overview of open questions<br />
*Open discussion</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=FG:_ULF_Wave_Modeling,_Effects,_and_Applications&diff=5467FG: ULF Wave Modeling, Effects, and Applications2021-12-09T18:59:21Z<p>Mdhartin: </p>
<hr />
<div>''Focus Group Leaders:''<br />
* Michael Hartinger, Space Science Institute (mhartinger@spacescience.org)<br />
* Kazue Takahashi, Applied Physics Laboratory<br />
* Alexander Drozdov, UCLA<br />
* Maria Usanova, University of Colorado<br />
* Brian Kress, University of Colorado and NOAA-NCEI<br />
* Xueling Shi, Virginia Tech<br />
<br />
Focus Group term: 2016-2021<br />
<br />
Join the discussion on [https://gemworkshop.slack.com/archives/C016U8PA7TJ Slack], including discussion related to the 2020 GEM and 2021 miniGEM meetings.<br />
<br />
== Science Questions ==<br />
Our group aims to address the following broad science questions: What mechanisms excite ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in Magnetosphere-Ionosphere coupling?<br />
<br />
== Focus Group Proposal ==<br />
[http://gem.epss.ucla.edu/mediawiki/FGproposals/Hartinger-UMEA.pdf ULF Wave Modeling, Effects, and Applications (UMEA)] (December 2015)<br />
<br />
== ULF wave modeling challenge ==<br />
<br />
One part of the ULF wave modeling challenge involves running several global MHD simulation codes with identical, idealized solar wind driving conditions (sinusoidal density variation), then comparing the resulting global ULF wave properties and discussing differences in the context of differing boundary conditions, grids, etc. More details can be found here: [http://ccmc.gsfc.nasa.gov/challenges/ULF/ ULF wave modeling challenge at CCMC]<br />
<br />
Another part of the ULF wave modeling challenge involves data-model comparisons during specific events. At the 2017 GEM and mini-GEM meetings several [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing challenge events] were proposed, including two [https://drive.google.com/open?id=1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI 2017 events].<br />
<br />
We have selected the [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing 27-28 May 2017 storm event] for the ULF wave modeling challenge due to favorable solar wind coverage and availability of numerous satellites (MMS, ARASE, THEMIS, RBSP, Cluster, GOES, ...) and ground-based observations for global context and multi-point wave observations. We will be continuously updating this [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing overview presentation] with observation and modeling results. Model output and observations for the challenge event - including global densities from the NURD model - can be obtained [https://drive.google.com/drive/folders/1Bk9vJtbEHd-vSuYqr3UG9NGCqaBn69hw?usp=sharing here]. If you would like to add additional observations/model output to the google drive or overview pdf, please contact the co-chairs.<br />
<br />
CCMC has run several global MHD simulation codes using the driving conditions of the ULF wave challenge event. At the 2019 GEM meeting and future GEM/mini-GEM meetings, we plan data-model comparisons to identify where model/data don't agree and discuss these differences in the context of incorrect boundary conditions (e.g., compare model ionosphere to local PFISR-derived conductivities), missing physics, numerical dissipation, etc. Please contact CCMC/Lutz Rastaetter and model developers before using this simulation output in publications:<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_SWMF_040319_1 Space Weather Modeling Framework simulation], IMF Bx=0 (other parameters as in event). Full 2-day event, 3D output every 15s, virtual ground magnetometer. If you haven't used CCMC visualization tools before, be aware that you shouldn’t submit multiple visualization requests at the same time, as this could crash CCMC server for these large 3D files. Instead, request a batch process or wait for the first visualization request to complete. The easiest/fastest visualization is to follow the link above and scroll down until you see the virtual ground magnetometer and satellites list. Click on the magnetometer/satellite of interest, then select which parameter(s) to display/download. <br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_1 OpenGGCM run 1] – IMF Bx = -7 nT. Smaller time range available on 28 May 0400-1000, only virtual ground magnetometer from POKR/CMO available now. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_1 Full results including virtual satellite.]<br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_2 Open GGCM run 2] – IMF Bx = 0 nT (as in SWMF simulation). Same format as other OpenGGCM simulation. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_2 Full results including virtual satellite.]<br />
<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_LFM_051519_2 LFM simulation]<br />
<br />
== ULF wave HGSO event coordination ==<br />
Our group is helping coordinate analysis of conjunction events for ULF wave studies, including requesting instrument operation modes favorable for ULF wave analysis.<br />
<br />
The [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] 0400-0800 UT conjunction event includes several satellites (THEMIS, Cluster, Van Allen Probes, GOES, Geotail, FIREBIRD, METOP, POES, DMSP) in the pre-midnight sector during a conjunction with the Poker Flat Incoherent Scatter Radar and several SuperDARN radars. PFISR was operating throughout the conjunction, several SuperDARN radars were in high resolution sampling modes, and several satellites were operating in fast survey/burst mode. The conjunction is favorable for modeling and observation studies of magnetosphere-ionosphere coupling via ULF waves, wave-particle interactions, global ULF wave properties, and many other topics. [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing This pdf] summarizes preliminary results<br />
<br />
Several web-based tools are available for identifying future conjunctions, including [https://ergsc.isee.nagoya-u.ac.jp/analysis/index.shtml.en upcoming conjunctions between ARASE and Van Allen Probes/ground] and conjunctions between [https://swarm-aurora.com/conjunctionFinder/ SWARM/all-sky cameras].<br />
<br />
'''There are also many specialized, web-based tools for ULF wave analysis (please contact FG co-chairs to add to this list):'''<br />
<br />
*SuperMAG ground-based magnetometer [http://supermag.jhuapl.edu/rBrowse/?start=2001-01-30T05%3A00%3A00.000Z&step=14400 global ULF wave plots]<br />
<br />
*CARISMA ground-based magnetometer [http://www.carisma.ca/carisma-data/fgm-pc1-power-spectra Pc1 power spectra] and [http://www.carisma.ca/carisma-data/fgm-pc5-power-spectra Pc5 power spectra]<br />
<br />
*Augsburg College/UNH Arctic and Antarctic [http://space.augsburg.edu/searchcoil/index.html search coil magnetometer survey plots] <br />
<br />
*Augsburg College (hosted by ViRBO) [http://virbo.org/Augsburg/ULF ULF wave index]<br />
<br />
*[http://vt.superdarn.org/tiki-index.php?page=DaViT+DynFFT SuperDARN wave analysis] and [http://vt.superdarn.org/tiki-index.php?page=Data+Inventory identification of high time-resolution SuperDARN beams]<br />
<br />
*THEMIS satellite fluxgate magnetometer [http://themis.ssl.berkeley.edu/summary.php?year=2014&month=05&day=11&hour=0024&sumType=thmfgmdyn&type=themislinfgl wave survey plots]<br />
<br />
*National Institute of Polar Research inter-hemispheric comparisons of Syowa/Iceland [http://iugonet0.nipr.ac.jp/web/induction/ induction magnetometer spectra]<br />
<br />
*[http://mist.nianet.org/Satellite_Conjunctions/ Inter-hemispheric comparisons] during satellite conjunctions with Arctic(DTU Space)/Antarctic(Virginia Tech) magnetometers<br />
<br />
*[http://kho.unis.no/uaf_msp.htm Meridian Scanning Photometer plots] from [http://kho.unis.no/ UNIS/Kjell Henriksen Observatory], for context on open-closed boundary and ULF modulation of the aurora<br />
<br />
== Summary Reports for GEM workshops ==<br />
[https://drive.google.com/file/d/1QLH8FcKm3-f25aLwoetOuYJGZu5sPgN3/view?usp=sharing 2016 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1SRIv6Gn-NNnqGPHGvjvZQcdDml2GQpv_/view?usp=sharing 2017 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1clzFHWrxC9hvYf9kECJx4bPn9xn8WwsG/view?usp=sharing 2018 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1_fLwZFCLBTBHnq8HkaFPWUvaIY81E-t0/view?usp=sharing 2019 UMEA FG report]<br />
<br />
== 2016 Mini-GEM schedule ==<br />
UMEA will hold one session at the [http://www.cpe.vt.edu/gem-mini/ mini-GEM workshop]: ULF wave modeling, effects and applications updates<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 11, 2016<br />
<br />
'''Location''': Oregon Room, Holiday Inn Golden Gateway<br />
<br />
'''Schedule:'''<br />
<br />
'''First Half (12:00 – 12:45): 3 talks (~15 min each):'''<br />
<br />
*1. Mike Hartinger -- [http://gem.epss.ucla.edu/mediawikiwiki/images/7/7c/UMEAoverview_miniGEM2016.pdf Overview of UMEA current activities, discussion of future plans]<br />
<br />
*2. Lutz Rastaetter -- ULF wave modeling challenge at CCMC<br />
<br />
*3. Robert Rankin -- Modeling the global properties and ground-based signatures of ULF waves and wave-particle interactions<br />
<br />
'''Second Half (12:45 – 13:30): (5 minutes each, 1-2 slides, order of talks may change):'''<br />
<br />
*1. Xueling Shi -- SuperDARN THEMIS Mode Data Tracker & ULF Wave Detection<br />
<br />
*2. Richard Denton -- Mass density inferred from Alfven wave frequencies measured by RBSP<br />
<br />
*3. Lars Daldorff -- ULF waves, particle transport and energization in global MHD simulations with plasmasphere<br />
<br />
*4. Alexander Drozdov -- Dependence of radiation belt simulations to assumed radial diffusion rates tested for two empirical models of radial transport<br />
<br />
*5. Bob Lysak -- Quarter Wavelength Modes<br />
<br />
*6. Walk-ins<br />
<br />
== 2017 GEM meeting schedule ==<br />
UMEA will hold four sessions session at the 2017 GEM meeting<br />
<br />
'''UMEA Update and plans, general discussion of ULF wave modeling and observations''': 10:30-12:15, Monday, June 19, Port VI-VIII<br />
<br />
*1. Michael Hartinger -- [https://drive.google.com/file/d/0B57bC_V89WW6dnBCbmFFSkFURUk/view?usp=sharing UMEA update]<br />
<br />
*2. Toshi Nishimura -- PFISR measurements during the 2 May 2017 HGSO event<br />
<br />
*3. Xueling Shi -- [https://drive.google.com/file/d/0B57bC_V89WW6OUcyNGNWM0piWnc/view?usp=sharing A Survey of Ionospheric ULF Wave Signatures in SuperDARN Data: Occurrence Statistics and Driving Mechanisms]<br />
<br />
*4. Tetsuo Motoba -- Dayside Auroral Pulsations<br />
<br />
*5. Brian Kress and Rob Redmon -- Newly Available GOES 8-16 Particle and Magnetic Field Measurements<br />
<br />
*6. Dick Wolf -- Theory of magnetospheric buoyancy waves<br />
<br />
<br />
'''ULF wave interactions with the radiation belt and ring current populations''': 1:30-3:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Rualdo Soto-Chavez -- Generation of Pc5-ULF wave by the drift-mirror instability<br />
<br />
*2. Zhiyang Xia -- [https://drive.google.com/file/d/0B57bC_V89WW6Y1VQRXJKd3Qya3c/view?usp=sharing Eigenmode analysis of compressional poloidal modes in a self-consistent magnetic field]<br />
<br />
*3. Mark Engebretson -- [https://drive.google.com/file/d/0B57bC_V89WW6QlM3LU9lTVVwZ1E/view?usp=sharing Statistical study of the upper frequency cutoff of helium band EMIC waves observed by the Van Allen Probes]<br />
<br />
*4. Alexander Drozdov -- Radial diffusion and EMIC waves in the long-term simulation and in the case study<br />
<br />
*5. Seth Claudepierre -- Global MHD simulations driven by idealized Alfvenic fluctuations in the solar wind<br />
<br />
*6. Michael Hartinger -- Radiation belt response to large scale, monochromatic ULF waves: LANL-GEO observations<br />
<br />
<br />
'''ULF wave modeling, including CCMC modeling challenge, Joint with MMV''': 3:30-5:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Lutz Rastaetter -- CCMC ULF wave modeling challenge update and challenge events<br />
<br />
*2. Scot Elkington -- [https://drive.google.com/file/d/0B57bC_V89WW6WUxJcGNqbUU2bzA/view?usp=sharing ULF wave activity and diffusion coefficients during QARBM challenge events], [https://drive.google.com/file/d/0B3MAHZknMumcem40dTVyNVRFbE0/view?usp=sharing Ashar F. Ali’s write-up on Event-Specific Radial Diffusion Coefficients Derived Using RBSP EMFISIS and EFW Data]<br />
<br />
*3. Katariina Nykyri -- KHI challenge events<br />
<br />
*4. All -- Open Discussion of Challenge Events<br />
<br />
*5. Doga Ozturk -- Effects of Increased Solar Wind Dynamic Pressure on the Coupled M-I system under different IMF By<br />
<br />
*6. Kazue Takahashi -- Cavity mode Van Allen Probe observations<br />
<br />
*7. Bob Lysak -- Cavity mode models<br />
<br />
*8. Tom Elsden -- [https://drive.google.com/file/d/0B57bC_V89WW6SDNnYjdwSVM3Y3c/view?usp=sharing The Theoretical Foundation of 3D Alfven Resonances: Time Dependent Solutions]<br />
<br />
<br />
'''Magnetosphere-Ionosphere coupling processes associated with localized disturbances caused by dayside kinetic phenomena: Joint with “Dayside Kinetic Processes…” and “Testing proposed links…”''': 3:30-5:00, Tuesday, June 20, Port VI-VIII<br />
<br />
*1. Peter Chi -- Magnetospheric and ionospheric responses to a localized disturbance: The macroscopic view<br />
<br />
*2. Hui Zhang -- Magnetospheric ULF waves generated by foreshock transients<br />
<br />
*3. Hui Zhang -- Modeling challenges in simulating HFA geoeffects<br />
<br />
*4. Boyi Wang -- Optical signatures of dayside ULF waves during magnetosheath high-speed jets<br />
<br />
*5. Katariina Nykyri -- The effect of magnetosheath seed spectrum on KH evolution and associated mass transport<br />
<br />
*6. Kyle Murphy -- A statistical study of discrete ULF wave power observed by GOES<br />
<br />
== 2017 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2017 mini-GEM] workshop<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 10, 2017, Canal/50<br />
<br />
'''ULF wave modeling challenges'''<br />
Discussion of final plans for the CCMC ULF wave modeling challenge with idealized drivers, as well as open discussion of new challenges involving data-model and model-model comparisons during [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing specific events]. Please come with 1-2 slides showing examples of such comparisons, ideas for improving ULF wave models, and/or ideas for specific modeling challenges/sessions relevant to the FG science questions.<br />
<br />
*1. 12:00-12:30 Overview of CCMC ULF wave modeling challenge with idealized driving conditions, description of challenge events and targets proposed during 2017 GEM meeting and November modeling telecon (Michael Hartinger, Lutz Rastaetter)<br />
*2. 12:30-13:30 [https://drive.google.com/file/d/1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI/view?usp=sharing Open discussion of challenge events and targets (Allison Jaynes,] Robert Rankin), select challenge event to be analyzed at 2018 GEM<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 10, 2017, Canal/50<br />
<br />
'''Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
Discussion of HGSO coordination for ULF wave studies. This includes updates on the [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] conjunction event followed by an open discussion of conjunctions and datasets that are particularly useful for ULF wave studies, including upcoming RBSP-ERG-ground conjunctions. Please come with 1-2 slides showing examples of datasets and past/upcoming conjunctions ideal for addressing the FG science questions: What excites ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in MI coupling? We welcome discussion from both modelers and observers of the types of conjunctions and observations that are most needed to address these questions.<br />
<br />
*1. 13:50-14:20 Recently available datasets and conjunctions for ULF wave studies (Chih-Ping Wang, Xueling Shi, Sana Qamar, Rob Redmon)<br />
*2. 14:20-14:35 Updates on 2 May 2017 conjunction event (Toshi Nishimura, Michael Hartinger)<br />
*3. 14:35-15:20 Upcoming ARASE-RBSP conjunctions (Yoshi Miyoshi), Open Discussion of HGSO coordination for ULF wave studies (Toshi Nishimura, Kazue Takahashi)<br />
<br />
== 2018 GEM meeting schedule ==<br />
UMEA will hold [https://drive.google.com/file/d/1uh-ZOICfOBzNs9KLe3saFMnY9P-oqV9R/view?usp=sharing four sessions] at the 2018 GEM meeting. <br />
<br />
'''ULF waves during particle injections and dipolarizations, joint with Dipolarization and Substorm FG''': 10:30-12:00, Monday, June 18<br />
<br />
*1. Discussion of Session Topic<br />
<br />
*2. Bob Lysak -- [https://drive.google.com/file/d/1w8o5aGYbLsIEy2YmaoosF3WNeWTuLE59/view?usp=sharing Ionospheric Conductivity Effects on Pi2 Pulsations]<br />
<br />
*3. Mike Hartinger -- [https://drive.google.com/file/d/1tcJgspMQDkhPPvSTng4eZP7h-j7jvVR7/view?usp=sharing Pi2 waves during an extended period with stable plasmapause location and variable geomagnetic activity]<br />
<br />
*4. Toshi Nishimura -- Ionosphere observations of Pc5 ULF waves during 2018 HGSO conjunctions<br />
<br />
*5. Xueling Shi -- Long-lasting poloidal ULF waves observed by multiple satellite and SuperDARN HF radars<br />
<br />
*6. Jian Yang -- New RCM-I simulation results for buoyancy waves<br />
<br />
*7. Dick Wolf -- [https://drive.google.com/file/d/1vTkH_lmgXCcvkAYU6HgO_R5ZgIdGji3O/view?usp=sharing Theory of Buoyancy Waves] <br />
<br />
*8. Yan Song -- What Causes the Substorm Expansion Phase and Associated ULF Waves?<br />
<br />
<br />
'''Recent advances in ULF wave research''': 1:30-3:00, Monday, June 18 <br />
<br />
*1. [https://drive.google.com/file/d/1ms9kDYlBhCnxti8z9o9Lx8y0PPmkWu_-/view?usp=sharing Overview of focus group goals and recent progress]<br />
<br />
*2. Brief ULF wave poster overviews (Tuesday posters)<br />
<br />
*3. Kazue Takahashi -- Observation of nightside ULF waves by RBSP and Arase<br />
<br />
*4. Tom Elsden -- Broadband Excitation of 3D Alfven Resonances (FLRs) in an MHD Waveguide<br />
<br />
*5. Boyi Wang -- 2-D structure of foreshock driven Pc5 ULF waves observed by the THEMIS satellites and South Pole imager<br />
<br />
*6. Xiaochen Shen -- Foreshock transient-driven ultra-low frequency (ULF) waves with dawn-dusk asymmetry of wave power<br />
<br />
*7. Chih-Ping Wang -- ULF waves possibly driven by tailward propagation of foreshock perturbations<br />
<br />
*8. Allison Jaynes -- [https://drive.google.com/file/d/1EC3yPvda8fA0LUr9qTfszluNDLs6LdHT/view?usp=sharing Fast diffusion of ultra-relativistic electrons in the outer radiation belt: 17 March 2015 storm event]<br />
<br />
*9. Rualdo Soto -- The Drift-Mirror instability in Earth's inner magnetosphere<br />
<br />
*10. Martin Archer/Mike Hartinger -- [https://drive.google.com/file/d/1t4fmiiZP9wdJ-40TISEC7BuicEd64m7W/view?usp=sharing Results from Sonification and Citizen Science of Magnetospheric ULF waves]<br />
<br />
<br />
'''EMIC wave generation, propagation, and interactions''': 3:30-5:00, Monday, June 18 (discussion leaders: Alexander Drozdov and Maria Usanova)<br />
[https://drive.google.com/open?id=15rjO2UxK8sqdOfHXunDSLv5q-z51vwuD Session Summary]<br />
<br />
*1. Dedong Wang -- EMIC wave observations from Van Allen Probes and MMS<br />
<br />
*2. Mark Engebretson -- [https://drive.google.com/file/d/1jkhN45ezaeQyeAA7HmVuYOF_izjAMYra/view?usp=sharing Van Allen Probes, and ground based magnetometer observations of EMIC waves associated with a modest interplanetary shock]<br />
<br />
*3. Maria Usanova -- MMS Observations of Harmonic Electromagnetic Cyclotron Waves<br />
<br />
*4. Naritoshi Kitamura -- Direct measurements of energy transfer from hot H+ to EMIC waves by MMS<br />
<br />
*5. Bruce Fritz -- ELF Whistler Dependence on a Sunlit Ionosphere<br />
<br />
*6. Chae-Woo Jun -- EMIC waves associated with/without the injection inside/outside the plasmapause<br />
<br />
*7. Hyomin Kim -- Injection-associated EMIC waves<br />
<br />
*8. Sebastian Cervantes -- EMIC wave parameterization in radiation belt reanalysis<br />
<br />
*9. Maria Usanova -- Long-term correlation of EMIC wave activity and radiation belt flux variations<br />
<br />
*10. Alexander Drozdov -- The effects due to the EMIC waves in the VERB code modeling<br />
<br />
<br />
'''ULF wave modeling challenge, joint with MMV FG''': 3:30-5:00, Wednesday, June 20<br />
<br />
*1. Brief ULF wave poster overviews (Thursday posters)<br />
<br />
*2. Mike Hartinger: [https://drive.google.com/file/d/1g2cL_qaDbASLH5DoJ_auJKQCbG96sdQn/view?usp=sharing ULF wave modeling challenge event overview, discussion of challenge targets (continuing during session)]<br />
<br />
*3. Mariko Teramoto: ARASE ULF wave observations during challenge event<br />
<br />
*4. Sam Califf: [https://drive.google.com/file/d/1CvbVG2Dp8e6RokJE0501L8-LU9ipdUFT/view?usp=sharing GOES-14 and 16 observations during the ULF wave challenge event, Data Discussion]<br />
<br />
*5. Toshi Nishimura: [https://drive.google.com/file/d/1cavbwNU4LoAigIsGvGF_UtiTaM97dFtP/view?usp=sharing PFISR measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*6. Dogacan Su Ozturk: [https://drive.google.com/file/d/1MmP3D_4eeJbEVJzUyx8fAtFsG3b0grzy/view?usp=sharing The modeling study of the 27 March 2017 Event] <br />
<br />
*7. Xiaochen Shen: GEM Challenge Event: ULF wave-related electron and proton precipitation/negative dynamic pressure pulse driven EMIC wave<br />
<br />
*8. Tetsuo Motoba: [https://drive.google.com/file/d/1544ngYBXat-zUC1gZqo0lMVUZtYqxUqH/view?usp=sharing Auroral measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*9. Others discuss when their figures/summary plots in event overview pdf are presented…<br />
<br />
== 2018 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2018 mini-GEM] workshop<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF modulation of the aurora, Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
This session focuses on understanding a variety of mechanisms responsible for ULF modulations of the aurora. Eric Donovan will give a 30 minute invited presentation, with the rest of the session open for presentations and discussion on this topic. We welcome discussion of ULF aurora generation mechanisms and the types of conjunctions, observations, and models needed to understand the zoo of ULF auroral modulations. We also welcome discussion of upcoming observation campaigns/satellite conjunctions that would be particularly useful for ULF wave studies.<br />
<br />
*1. Eric Donovan<br />
*2. Tetsuo Motoba<br />
*3. Slava Pilipenko<br />
*4. Boyi Wang / Toshi Nishimura<br />
*5. Open discussion<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF wave modeling challenge and research highlights'''<br />
The first part of the session is for updates on the idealized ULF wave modeling challenge and potential 2019 GEM sessions. The next part of the session is for observation/model presentations relevant to the 27-28 May 2017 ULF wave challenge event and final selection of the modeling challenge targets – all types of models and observations welcome. The last part of the session will be open for 1 slide ULF wave modeling and observation research highlights. <br />
<br />
*1. [https://drive.google.com/file/d/1vqxxn3gYXfzDKABe9yRwMgR8vbKRua_j/view?usp=sharing 2019 GEM session ideas] (Mike Hartinger)<br />
*2. Idealized Modeling Challenge (Lutz Rastaetter)<br />
*3. ULF wave modeling challenge event updates: Rob Redmon/Sam Califf/Mike Hartinger (GOES magnetometer observations), Yoshi Miyoshi (Arase magnetic field observations), [https://drive.google.com/file/d/1B6DGHvAzUhBG79eUJWPsUD2BSjGhQrrw/view?usp=sharing Hyomin Kim (wave-particle interaction)], [https://drive.google.com/file/d/180iaBGrbCPf1rYy6uVZn8OsLTOFREqsD/view?usp=sharing Dong Lin (LFM simulations)]<br />
*4. General ULF wave modeling: [https://drive.google.com/file/d/10gUKitjDPnbV_g9r9CAHDFeE365wUQQd/view?usp=sharing Yaireska Collado-Vega (vortex identification/surface waves)], [https://drive.google.com/file/d/1kkGlYKoYHr7XZf5nT3kaXITUD3tpNynJ/view?usp=sharing Alex Degeling (ULF wave radiation belt interactions)] <br />
*5. Research highlights (1-slide): Rualdo Soto (Van Allen Probes and Cluster satellites’ observations of Pc 5 (mHz) magnetic pulsations), [https://drive.google.com/file/d/1V_Joz3psBQbCBoVKRYaOKdKIEoZ72WgQ/view?usp=sharing Xueling Shi (SuperDARN ULF waves)], Martin Archer (magnetopause surface eigenmodes), [https://drive.google.com/file/d/1Mmi3VfERKswG3dpYidVUgOQra2UG-9s2/view?usp=sharing Martin Archer (sonification)]<br />
<br />
== 2019 GEM meeting schedule ==<br />
<br />
UMEA will hold [https://drive.google.com/file/d/1KmH9XqxrisGH_g4s0ny7QDkutmv7tKlr/view?usp=sharing six sessions] at the 2019 GEM meeting, four joint with other focus groups. <br />
<br />
'''Recent advances in ULF wave research: Modeling''': 3:30-5:00, Monday, June 24 New Mexico room, joint with MMV. <br />
Discussion of advances in ULF wave research, with focus on modeling and modeling challenges (e.g., boundary conditions, grid resolution, missing physics). This includes models of the effects of ULF waves on inner magnetosphere dynamics and wave-particle interactions. We particularly encourage presentations focused on the ULF wave modeling challenge, including data-model comparisons for the 27-28 May 2017 challenge event.<br />
*Mike Hartinger, [https://drive.google.com/open?id=1Drkq9epsQWY4AjpV1EF-8Ci_kaKyN2jk FG updates]<br />
*Jesper Gjerloev, SuperMAG ULF updates<br />
*Tetsuo Motoba, High-time resolution SuperMAG ULF data products<br />
*Lutz Rastaetter, ULF wave modeling challenge<br />
*Maulik Patel, MHD test particle simulations of the 16 July 2017 shock compression of the dayside magnetopause <br />
*Bob McPherron, Pi 2 pulsations during the storm of May 27-29 2017, The Statistics of Pi 2 Pulsation Occurrence during a Major Magnetic Storm<br />
*Dong Lin, LFM simulations of surface waves during challenge event<br />
<br />
'''The ULF response to dayside transients with different temporal/spatial scales''': 10:30-12:00, Wednesday, June 26 Santa Fe room, discussion leader: Tom Elsden, joint with Dayside Kinetics and IHMIC. <br />
Dayside transient phenomena associated with kinetic scale processes cause a variety of ULF wave behaviour in the magnetosphere and further, contribute to significant magnetospheric asymmetries. The aim of this session is to bring together the expertise of the three focus groups listed above, to answer outstanding questions at the overlap of these disciplines. It is hoped that such a discussion should prove fruitful enough to generate a JGR commentary paper in this area. With this in mind, speakers in this session are encouraged to give their views as to the current state of the subject area, and how outstanding problems may be addressed in the future.<br />
* Tom Elsden - Session introduction and goals<br />
* Ferdinand Plaschke (invited) - An overview of dayside transients causing ULF waves<br />
* Tom Elsden - 3D ULF wave modeling with MHD<br />
* Boyi Wang - The role of magnetosheath high-speed jets in triggering magnetospheric Pc5 ULF waves<br />
* Bob Lysak - Ionospheric asymmetries and quarter-wave modes<br />
* Xueling Shi - Conjugate Observations of ULF Waves during an Extended Period of Radial IMF<br />
* Michael Hartinger - Localized magnetopause surface wave activity and [https://drive.google.com/open?id=1d8lDB-FPGa6VErL37aZz3xZSgpNvxbk0 modeling challenges]<br />
* Discussion<br />
<br />
'''ULF wave modeling challenges associated with Magnetosphere-Ionosphere-Thermosphere Coupling''': 3:30-5:00, Wednesday, June 26 Lumpkins Ballroon South, joint with IEMIT, discussion leader Doga Ozturk. <br />
ULF waves play important roles in M-I-T coupling, driving current systems that can lead to I-T system heating and geomagnetically induced currents. This session aims to bring together researchers from the ULF wave and M-I-T coupling research communities to discuss challenges associated with realistically modeling M-I-T coupling processes associated with these waves. The session will begin with a discussion of the ULF wave challenge event; comparisons between modeled / observed (PFISR) conductivities and modeled/observed ULF wave properties will be presented, and the community will be invited to discuss explanations for model/observation differences. The rest of the session is open for short presentations on ULF wave modeling challenges related to M-I-T coupling, including topics such as specifying conductivity and effect of conductivity on wave properties, effect of ionospheric boundary conditions in global simulations, boundary conditions and feedback between magnetosphere and ionosphere, capturing role of waves in ionospheric-thermospheric heating.<br />
# (Invited) Boyi Wang: Ionospheric modulation by Pc5 ULF waves and wave structure detected by PFISR<br />
# (Invited) Xiaojia Zhang / Anton Artemyev: ULF modulation of VLF waves and precipitation<br />
# Doga Ozturk: Update from GEM/CEDAR joint session, [https://drive.google.com/open?id=1WsSf4PFHiBo_iZ3za-bhUWKHFJd4MNQX ULF Wave activity and Meso-Scale electric field variability at high-latitude I-T system]<br />
# Anatoly Streltsov: ULF waves generated by the MI interactions near the plasmapause<br />
# Mergen Alimaganbetov: ULF waves observed in space and on the ground at high and low latitudes<br />
# Mark Engebretson: [https://drive.google.com/open?id=16WbDl3rnuehoifUqFj4oMw_Tn5WhEFlU Multi-Instrument Observations of Nighttime Impulsive Magnetic Events]<br />
# Bob Lysak: Modeling ionospheric conductance and ground magnetic fields<br />
# Yan Song: ULF wave, M-I coupling and Auroral formation.<br />
<br />
[https://drive.google.com/open?id=1wGpZPk086Zs54uWGtYiRjByPmVCFnsSv '''EMIC waves''']: 10:30-12:00, Thursday, June 27 New Mexico room, joint with Radiation Belt. <br />
The generation mechanisms of Electromagnetic Ion Cyclotron (EMIC) waves, their effects on energetic electrons and ions, and their propagation through the magnetosphere-ionosphere system are challenging topics that involve multiple GEM research areas. Despite several years of observations and improved global wave statistics, there are many unresolved questions that limit further investigation, modeling and prediction of dynamical processes in the inner magnetosphere involving EMIC waves. Hence, we invite short presentations that discuss recent findings in different areas of EMIC wave research and identify observations/models most needed to address unresolved questions.<br />
*Robert Allen, Outer magnetospheric EMIC wave source regions characterized by Cluster<br />
*Sarah Vines, EMIC waves in the outer magnetosphere: Observations of an off-equator source region<br />
*Justin Lee, [https://drive.google.com/open?id=1xlJfppvWgOC_JHy6QgPpptcI3GjkYuLC EMIC wave observations by MMS] <br />
*Chao Yue, The relationship between EMIC wave properties and proton distributions based on Van Allen Probes observations<br />
*Kristine Sigsbee, Simultaneous EMIC Wave Observations During a Van Allen Probes Conjunction<br />
*Hyomin Kim, [https://drive.google.com/open?id=1UmmYHxyIcH2FfQmRnffGNnCUNjH8S5qQ Observations of Particle Loss due to Injection-Associated EMIC Waves]<br />
*Yuri Shprits, Dips in PSD and how they are related to EMIC wave scattering<br />
*Richard Denton, Electromagnetic ion cyclotron waves in the dipole magnetosphere and pitch angle scattering of sub-MeV relativistic electrons by those waves<br />
*Qianli Ma, Pitch angle scattering of radiation belt electrons due to statistical EMIC wave spectra <br />
<br />
'''Recent advances in ULF wave research: Observations and HGSO coordination for ULF wave studies''': 1:30-3:00, Thursday, June 27 New Mexico room. <br />
Discussion of recent advances in ULF wave research, with focus on observations and a general discussion of Heliophysics/Geospace System Observatory coordination for ULF wave studies. We particularly encourage presentations describing (1) past or upcoming satellite conjunctions, (2) new data analysis tools, and/or (3) instrumentation/operation modes of interest to the ULF wave research community.<br />
*Seth Claudepierre/Matina Gkioulidou (invited), [https://drive.google.com/open?id=1bjENFjvkWSjLYA_EfFuTxhCyKtVlk7c1 Van Allen Probes: End of Mission and ULF wave studies]<br />
*Tetsuo Motoba, SuperMAG ULF wave tools<br />
*Sarah Vines, Determining EMIC wave vector properties through multi-point measurements: The wave curl analysis<br />
*Aaron Breneman, [https://drive.google.com/open?id=1NHlf9I_VV6vkx9id_NL4gE6YhEsSRxkG BARREL precipitation during solar wind driven ULF wave events] <br />
*Anatoly Streltsov, Effect of the Hall conductivity on generation of ULF waves<br />
*Mohammad Barani, [https://drive.google.com/open?id=1sCMVi0pbWsggpUUnotdl-4LO_hfGGFEc Estimating the Azimuthal Mode Structure of ULF Waves Based on Multiple GOES Satellite Observations]<br />
*Kazue Takahashi, L versus time structures of ground magnetic pulsations<br />
*Chih-Ping Wang, Earthward propagation of Pi2 waves<br />
<br />
'''ULF waves driven by wave-particle interactions and instabilities''': 3:30-5:00, Thursday, June 27 Lumpkins Ballroon South, discussion leaders: Xueling Shi and Hyomin Kim. <br />
Many ULF wave modes are closely related to instabilities and wave-particle interactions inside the magnetosphere: poloidal mode waves associated with particle injections, mirror/drift-mirror modes, buoyancy waves… These waves are often discussed in different contexts and in different GEM sessions. In addition, there have been relatively few studies of modeling internally generated ULF waves. The purpose of this session is to bring together modelers and observers to discuss the underlying processes that drive/damp these waves, their impact(s) on the M-I system (ring current, radiation belt, ionosphere,…), and the models/observations needed to better understand wave dynamics.<br />
*Xuzhi Zhou (invited), Acceleration of relativistic electrons by global-scale ULF waves<br />
*Tomotsugu Yamakawa (invited), [https://drive.google.com/open?id=1PEsq7oWVeXwwXn3JvE5ZvWQIIjfXwKRB Simulation of the excitation of storm-time Pc5 ULF waves by ring current ions based on the drift-kinetic model]<br />
*Frank Toffoletto, Normal Mode Analysis of Buoyancy Waves <br />
*Peter Chi, Observations of High-m Poloidal Waves along Magnetospheric Field Lines<br />
*Mike Hartinger, [https://drive.google.com/open?id=17do2Jxy01SJPmOloBxzTPID9ZzqaPGZI Observations of wave-particle interactions using MagEIS ultra-high resolution energy channels]<br />
*Jiang Liu, Ultralow Frequency Waves Deep Inside the Inner Magnetosphere Driven by Dipolarizing Flux Bundles, and their interaction with electrons<br />
*Kyle Murphy, TBD<br />
<br />
== 2019 Mini-GEM schedule ==<br />
UMEA will hold one session at the [https://gemworkshop.org/ 2019 mini-GEM] workshop<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 8, 2019, Nevada Room<br />
<br />
'''ULF wave modeling challenge event, HGSO coordination, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge and potential 2020 GEM sessions. The next part of the session is open for ULF wave research presentations discussing the ULF wave modeling challenge event or current/upcoming observation campaigns that are particularly useful for ULF wave studies. The last part of the session will be open for 1 slide ULF wave research highlights.<br />
<br />
*Mike Hartinger, [https://drive.google.com/open?id=1eQQc07g7nCTEGNwaTGesQx4ymIU6m815 UMEA updates and proposed sessions for 2020 GEM workshop]<br />
*Dong Lin, [https://drive.google.com/open?id=1SqiD1u69eyKNzLyrtvTWbMK05L5OrkrO LFM Simulations of ULF wave modeling challenge event]<br />
*Mohammad Barani, [https://drive.google.com/open?id=1fQAossqjQ-aBuGIBhDIW6I0_WEtHdQsF High-fidelity ULF wave azimuthal mode number structure estimation using MMS magnetometer observations], [https://www.youtube.com/watch?reload=9&v=W5Vya8pCjNE&t=1s link to related presentation on YouTube]<br />
*Chih-Ping Wang, [https://drive.google.com/open?id=19ugyLwyIp4YRuLpDuzT330IdbbFppQcr Inward propagation of Pi2 wave from plasma sheet to inner magnetosphere: THEMIS-GOES conjunctions]<br />
*Walk-ins<br />
<br />
== 2020 VGEM schedule ==<br />
UMEA will hold two sessions at the [https://gemworkshop.org/ 2020 Virtual GEM] workshop<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave modeling challenge event'''<br />
(Hosted by Xueling Shi)<br />
The first part of the session is for updates on research related to the challenge event (27-29 May 2017 storm): All modeling and observation talks welcome as long as they're related to this event. The last part of the session will be for short research highlights and oral summaries of posters.<br />
<br />
*Mike Hartinger (10 minutes), [https://drive.google.com/file/d/1Z5-g7-f-iKfpuWD03WVkA3Q2Rb9mbQfe/view?usp=sharing 2020 UMEA updates and overview of challenge event] <br />
*Simone Di Matteo (15 minutes), [https://drive.google.com/file/d/1acsSyIszg95muYurOkn0RmW0btblS3Ja/view?usp=sharing On some features characterizing the plasmasphere–magnetosphere–ionosphere system during the geomagnetic storm of 27 May 2017] <br />
*Bob McPherron (15 minutes), [https://drive.google.com/file/d/1pnqs49KamZF2BLgMdaoOroktmkBNnj1c/view?usp=sharing ULF wave activity at synchronous orbit during the May 27-29, 2017 Magnetic storm]<br />
*Boyi Wang (15 minutes), Ionospheric modulation by storm-time Pc5 ULF waves and wave structure detected by PFISR-THEMIS conjunctions<br />
*Lutz Rastaetter (15 minutes), [https://drive.google.com/file/d/1H9nTOrpQHX0NEau1eSktWjWM0KYbyfnM/view?usp=sharing Idealized ULF wave modeling challenge: high-resolution runs] <br />
*Mark Engebretson (5 minutes), [https://drive.google.com/file/d/1kvWyYe52OkTB7uUmKWRDSO305Jina-Yy/view?usp=sharing Nighttime magnetic perturbation events observed in Arctic Canada: Superposed epoch analysis]<br />
*Jinxing Li (5 minutes), Electron microinjections in association with compressional ULF waves: MMS observations<br />
*Xiaojia Zhang (5 minutes), [https://drive.google.com/file/d/1fKwf0t1ohDZIxF5NPtsgGKNP0cBEqECn/view?usp=sharing Spreading of Magnetopause-Generated Ultra-Low-Frequency Perturbations and the Associated Whistler Modulation] <br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave research highlights'''<br />
These will be contributed talks with priority given to graduate students and postdocs. The rationale is that virtual GEM will not provide the same type of networking opportunities as in-person GEM, and we'd like to balance this somewhat by giving more opportunities to students/postdocs to present their work on ULF waves.<br />
<br />
All presentations are 10 minutes including discussion:<br />
*Rachel Rice, Characteristics of Kelvin-Helmholtz Waves as Observed by MMS<br />
*Dong Lin, Idealized ULF wave simulations with GAMERA-RCM model<br />
*Boyi Wang, The interaction between ions and the ULF waves driven by a foreshock transient<br />
*Jayashree Bulusu, [https://drive.google.com/file/d/1YyRAo0I7Cf4-buxhTBXLxYaTWw7GX6SZ/view?usp=sharing Investigation of Pi2s during super quiet conditions from low and mid-latitudes]<br />
*Changzhi Zhai, High-m Poloidal ULF Wave Signatures in GPS TEC Data<br />
*Simone Di Matteo, [https://drive.google.com/file/d/1yYaidiu7O4a0Z8PeQXELiyatB03hJQyX/view?usp=sharing Power Spectral Density Background Estimate and Signal Detection via the Multitaper Method] <br />
*Yixin Hao, [https://drive.google.com/file/d/1iIf5QpLE9t7IThiIPNwhCoRHrbFDoR8R/view?usp=sharing Simultaneous observations of localized and global drift resonance]<br />
*Mohammad Barani, [https://drive.google.com/file/d/1it2y8JXJzrbjmt56MWia7ffbei63gIwC/view?usp=sharing Effects of realistic mode number structure on radial diffusion estimation]<br />
<br />
== 2021 January Virtual Mini-GEM schedule ==<br />
UMEA will hold one session at the Virtual Mini-GEM Worskhop.<br />
<br />
'''Time''': 12:00-14:00 US Eastern Time, Friday, January 22, 2021<br />
<br />
'''ULF wave modeling challenge event, planning for 2021 GEM meeting, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge event, including an invited talk by Naoko Takahashi. The next part of the session will be for open discussion on potential 2021 GEM sessions. The final part of the session will be open for ULF wave research highlights. <br />
*Mike Hartinger, Brief Introduction to Challenge event<br />
*Naoko Takahashi, Relative contribution of ULF waves and whistler-mode chorus to the radiation belt variation during May 2017 storm<br />
*Ian Kelley, GPS TEC response during the ULF wave challenge event<br />
*Mike Hartinger, ULF wave geoelectric fields during the challenge event<br />
*All, Planning for 2021 GEM sessions<br />
*Bob Lysak, FLRs in Jupiter's magnetosphere<br />
*Toshi Nishimura, Upcoming conjunctions for ULF wave studies<br />
*Toshi Nishimura, PFISR and all-sky imager observations of Pc5 ULF waves during substorms<br />
*Francesco Lena, Detection of Hertz Frequency Multiharmonic Field Line Resonances at Low-L (L=1.1–1.5) During Van Allen Probe Perigee Passes<br />
<br />
== 2021 VGEM schedule ==<br />
UMEA will lead four sessions at the [https://gemworkshop.org/ 2021 Virtual GEM] workshop.<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''Recent Advances in ULF Wave Research'''<br />
This session will start with a short update on the ULF wave modeling challenge. The rest of the session will be for recent advances in ULF wave research, with priority given to presentations (1) with data or modeling results related to the challenge event (27-28 May 2017) or (2) discussions of ULF wave data-model comparisons.<br />
<br />
*Michelle Salzano, IPDP-Pi1B - modeling drift shell splitting<br />
*Aditi Upadhyay, Occurrence Characteristics of Electromagnetic Ion Cyclotron Waves at the Indian Antactrtic Station, Maitri<br />
*Yangyang Shen, Tens to hundreds of keV electron precipitation driven by kinetic Alfven waves during an electron injection<br />
*Chih-Ping Wang, Statistical results for Pi2 waves associated with the plasma sheet BBFs observed by THEMIS-RBSP pair with RBSP inside or outside the plasmasphere<br />
*Tom Elsden, Modelling the Varying Location of Field Line Resonances During Geomagnetic Storms<br />
*Denny Oliveira, Factors controlling shock-induced magnetospheric ULF waves<br />
*Short Oral Summaries of Posters<br />
*Open Discussion<br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''The Future of ULF Wave Research'''<br />
<br />
Hosted by Ayomide Olabode<br />
<br />
This session will begin with a review of the ULF wave FG’s original goals, research topics covered in the last 5 years and related activities, and unresolved questions and research objectives. The remainder of the session is open for 1-2 slide presentations on major unresolved questions in ULF wave research. We particularly encourage presentations (1) exploring topics that could be addressed by current/future GEM FG or decadal survey white paper, (2) highlighting major questions or obstacles preventing progress in ULF wave research (e.g., missing data in a critical region, missing theory/modeling component), (3) discuss how ULF wave researchers can best take advantage of future satellite missions, ground-based infrastructure, computing advances/big data/AI, and modeling/theory advances. <br />
<br />
*Mike Hartinger, Retrospective on the ULF wave focus group<br />
*Martin Archer, Surface Waves<br />
*Tom Elsden, 3D FLRs<br />
*Alexander Drozdov, Radial Diffusion<br />
*Ayomide Olabode and Michelle Salzano, Ground Magnetic Perturbations<br />
*Mark Engebretson, Pc1 waves / MMS k-vector technique<br />
*Xueling Shi, Applications of TEC observations<br />
*Open discussion, walk-in presentations welcome<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Tuesday, July 27, 2021<br />
<br />
'''ULF Wave M-I Coupling Processes'''<br />
This session is joint with the IEMIT FG. The session will begin with a review of the role of ULF waves on M-I coupling. The remainder of the session is open for 5-min presentations on ULF wave topics related to M-I coupling, e.g., auroral acceleration, particle precipitation, geomagnetic perturbations, GICs, etc. More questions and discussions will be left to the end.<br />
<br />
*Hui Zhang, Role of ULF waves in M-I coupling<br />
*Chaosong Huang, Global Pc5 pulsations<br />
*Tetsuo Motoba, Daytime Pc5 Diffuse Auroral Pulsations and Their Association With Outer Magnetospheric ULF Waves<br />
*Anton Artemyev, ULF driven precipitations as observed by ELFIN<br />
*Mark Engebretson, Magnetic perturbation events related to GICs<br />
*Denny Oliveira, IP shock impact angle control of local intense dB/dt variations during substorm<br />
*Xueling Shi, Sources of Intense Geoelectric Fields in the United States<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Friday, July 30, 2021<br />
<br />
'''Coupling Between ULF Waves and Cold Plasma'''<br />
<br />
Hosted by Rachel Rice<br />
<br />
This session is joint with the Cold Plasma FG. The session will begin with a review of mechanisms that couple cold plasma populations to ULF waves by Richard Denton. The remainder of the session is for contributed presentations describing (1) recent advances in our understanding of cold plasma interactions with ULF waves and (2) outstanding questions that could be discussed in future cold plasma FG sessions.<br />
<br />
*Richard Denton, Coupling Between ULF Waves and Cold Plasma<br />
*Alex Degeling, Modeling ULF Waves Trapped in a Plasmaspheric Density Plume <br />
*Eun Hwa Kim, Can Electromagnetic Ion Cyclotron Waves Propagate to the Ground?: 2D Full Wave Simulation<br />
*Bob Lysak, Relation of plasmaspheric cavity modes to Pi2 pulsations in an asymmetric plasmasphere<br />
*Yixin Hao, ULF wave-cold plasma interaction<br />
*Mike Hartinger, The relationship between global ULF wave properties and radial Alfven speed profile<br />
<br />
== 2021 Mini-GEM ==<br />
<br />
UMEA will hold a joint session with RB FG at the Mini-GEM Worskhop. We will run the session in hybrid mode.<br />
<br />
Time: 5:30-7:00 CST on December 12, 2021.<br />
We invite presentations that discuss recent findings in various areas of Electromagnetic Ion Cyclotron (EMIC) wave research, including their effects on energetic electrons and ions, and their propagation through the magnetosphere-ionosphere system. Virtual and in-person participants are welcome.<br />
If you would like to present, please send the title of your presentation by filling this Google form: https://forms.gle/rWvL64ctbWXqWTQU9, or via email to adrozdov@ucla.edu by December 10.</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=FG:_ULF_Wave_Modeling,_Effects,_and_Applications&diff=5416FG: ULF Wave Modeling, Effects, and Applications2021-07-30T23:01:22Z<p>Mdhartin: /* 2021 VGEM schedule */</p>
<hr />
<div>''Focus Group Leaders:''<br />
* Michael Hartinger, Space Science Institute (mhartinger@spacescience.org)<br />
* Kazue Takahashi, Applied Physics Laboratory<br />
* Alexander Drozdov, UCLA<br />
* Maria Usanova, University of Colorado<br />
* Brian Kress, University of Colorado and NOAA-NCEI<br />
* Xueling Shi, Virginia Tech<br />
<br />
Focus Group term: 2016-2021<br />
<br />
Join the discussion on [https://gemworkshop.slack.com/archives/C016U8PA7TJ Slack], including discussion related to the 2020 GEM and 2021 miniGEM meetings.<br />
<br />
== Science Questions ==<br />
Our group aims to address the following broad science questions: What mechanisms excite ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in Magnetosphere-Ionosphere coupling?<br />
<br />
== Focus Group Proposal ==<br />
[http://gem.epss.ucla.edu/mediawiki/FGproposals/Hartinger-UMEA.pdf ULF Wave Modeling, Effects, and Applications (UMEA)] (December 2015)<br />
<br />
== ULF wave modeling challenge ==<br />
<br />
One part of the ULF wave modeling challenge involves running several global MHD simulation codes with identical, idealized solar wind driving conditions (sinusoidal density variation), then comparing the resulting global ULF wave properties and discussing differences in the context of differing boundary conditions, grids, etc. More details can be found here: [http://ccmc.gsfc.nasa.gov/challenges/ULF/ ULF wave modeling challenge at CCMC]<br />
<br />
Another part of the ULF wave modeling challenge involves data-model comparisons during specific events. At the 2017 GEM and mini-GEM meetings several [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing challenge events] were proposed, including two [https://drive.google.com/open?id=1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI 2017 events].<br />
<br />
We have selected the [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing 27-28 May 2017 storm event] for the ULF wave modeling challenge due to favorable solar wind coverage and availability of numerous satellites (MMS, ARASE, THEMIS, RBSP, Cluster, GOES, ...) and ground-based observations for global context and multi-point wave observations. We will be continuously updating this [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing overview presentation] with observation and modeling results. Model output and observations for the challenge event - including global densities from the NURD model - can be obtained [https://drive.google.com/drive/folders/1Bk9vJtbEHd-vSuYqr3UG9NGCqaBn69hw?usp=sharing here]. If you would like to add additional observations/model output to the google drive or overview pdf, please contact the co-chairs.<br />
<br />
CCMC has run several global MHD simulation codes using the driving conditions of the ULF wave challenge event. At the 2019 GEM meeting and future GEM/mini-GEM meetings, we plan data-model comparisons to identify where model/data don't agree and discuss these differences in the context of incorrect boundary conditions (e.g., compare model ionosphere to local PFISR-derived conductivities), missing physics, numerical dissipation, etc. Please contact CCMC/Lutz Rastaetter and model developers before using this simulation output in publications:<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_SWMF_040319_1 Space Weather Modeling Framework simulation], IMF Bx=0 (other parameters as in event). Full 2-day event, 3D output every 15s, virtual ground magnetometer. If you haven't used CCMC visualization tools before, be aware that you shouldn’t submit multiple visualization requests at the same time, as this could crash CCMC server for these large 3D files. Instead, request a batch process or wait for the first visualization request to complete. The easiest/fastest visualization is to follow the link above and scroll down until you see the virtual ground magnetometer and satellites list. Click on the magnetometer/satellite of interest, then select which parameter(s) to display/download. <br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_1 OpenGGCM run 1] – IMF Bx = -7 nT. Smaller time range available on 28 May 0400-1000, only virtual ground magnetometer from POKR/CMO available now. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_1 Full results including virtual satellite.]<br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_2 Open GGCM run 2] – IMF Bx = 0 nT (as in SWMF simulation). Same format as other OpenGGCM simulation. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_2 Full results including virtual satellite.]<br />
<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_LFM_051519_2 LFM simulation]<br />
<br />
== ULF wave HGSO event coordination ==<br />
Our group is helping coordinate analysis of conjunction events for ULF wave studies, including requesting instrument operation modes favorable for ULF wave analysis.<br />
<br />
The [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] 0400-0800 UT conjunction event includes several satellites (THEMIS, Cluster, Van Allen Probes, GOES, Geotail, FIREBIRD, METOP, POES, DMSP) in the pre-midnight sector during a conjunction with the Poker Flat Incoherent Scatter Radar and several SuperDARN radars. PFISR was operating throughout the conjunction, several SuperDARN radars were in high resolution sampling modes, and several satellites were operating in fast survey/burst mode. The conjunction is favorable for modeling and observation studies of magnetosphere-ionosphere coupling via ULF waves, wave-particle interactions, global ULF wave properties, and many other topics. [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing This pdf] summarizes preliminary results<br />
<br />
Several web-based tools are available for identifying future conjunctions, including [https://ergsc.isee.nagoya-u.ac.jp/analysis/index.shtml.en upcoming conjunctions between ARASE and Van Allen Probes/ground] and conjunctions between [https://swarm-aurora.com/conjunctionFinder/ SWARM/all-sky cameras].<br />
<br />
'''There are also many specialized, web-based tools for ULF wave analysis (please contact FG co-chairs to add to this list):'''<br />
<br />
*SuperMAG ground-based magnetometer [http://supermag.jhuapl.edu/rBrowse/?start=2001-01-30T05%3A00%3A00.000Z&step=14400 global ULF wave plots]<br />
<br />
*CARISMA ground-based magnetometer [http://www.carisma.ca/carisma-data/fgm-pc1-power-spectra Pc1 power spectra] and [http://www.carisma.ca/carisma-data/fgm-pc5-power-spectra Pc5 power spectra]<br />
<br />
*Augsburg College/UNH Arctic and Antarctic [http://space.augsburg.edu/searchcoil/index.html search coil magnetometer survey plots] <br />
<br />
*Augsburg College (hosted by ViRBO) [http://virbo.org/Augsburg/ULF ULF wave index]<br />
<br />
*[http://vt.superdarn.org/tiki-index.php?page=DaViT+DynFFT SuperDARN wave analysis] and [http://vt.superdarn.org/tiki-index.php?page=Data+Inventory identification of high time-resolution SuperDARN beams]<br />
<br />
*THEMIS satellite fluxgate magnetometer [http://themis.ssl.berkeley.edu/summary.php?year=2014&month=05&day=11&hour=0024&sumType=thmfgmdyn&type=themislinfgl wave survey plots]<br />
<br />
*National Institute of Polar Research inter-hemispheric comparisons of Syowa/Iceland [http://iugonet0.nipr.ac.jp/web/induction/ induction magnetometer spectra]<br />
<br />
*[http://mist.nianet.org/Satellite_Conjunctions/ Inter-hemispheric comparisons] during satellite conjunctions with Arctic(DTU Space)/Antarctic(Virginia Tech) magnetometers<br />
<br />
*[http://kho.unis.no/uaf_msp.htm Meridian Scanning Photometer plots] from [http://kho.unis.no/ UNIS/Kjell Henriksen Observatory], for context on open-closed boundary and ULF modulation of the aurora<br />
<br />
== Summary Reports for GEM workshops ==<br />
[https://drive.google.com/file/d/1QLH8FcKm3-f25aLwoetOuYJGZu5sPgN3/view?usp=sharing 2016 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1SRIv6Gn-NNnqGPHGvjvZQcdDml2GQpv_/view?usp=sharing 2017 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1clzFHWrxC9hvYf9kECJx4bPn9xn8WwsG/view?usp=sharing 2018 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1_fLwZFCLBTBHnq8HkaFPWUvaIY81E-t0/view?usp=sharing 2019 UMEA FG report]<br />
<br />
== 2016 Mini-GEM schedule ==<br />
UMEA will hold one session at the [http://www.cpe.vt.edu/gem-mini/ mini-GEM workshop]: ULF wave modeling, effects and applications updates<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 11, 2016<br />
<br />
'''Location''': Oregon Room, Holiday Inn Golden Gateway<br />
<br />
'''Schedule:'''<br />
<br />
'''First Half (12:00 – 12:45): 3 talks (~15 min each):'''<br />
<br />
*1. Mike Hartinger -- [http://gem.epss.ucla.edu/mediawikiwiki/images/7/7c/UMEAoverview_miniGEM2016.pdf Overview of UMEA current activities, discussion of future plans]<br />
<br />
*2. Lutz Rastaetter -- ULF wave modeling challenge at CCMC<br />
<br />
*3. Robert Rankin -- Modeling the global properties and ground-based signatures of ULF waves and wave-particle interactions<br />
<br />
'''Second Half (12:45 – 13:30): (5 minutes each, 1-2 slides, order of talks may change):'''<br />
<br />
*1. Xueling Shi -- SuperDARN THEMIS Mode Data Tracker & ULF Wave Detection<br />
<br />
*2. Richard Denton -- Mass density inferred from Alfven wave frequencies measured by RBSP<br />
<br />
*3. Lars Daldorff -- ULF waves, particle transport and energization in global MHD simulations with plasmasphere<br />
<br />
*4. Alexander Drozdov -- Dependence of radiation belt simulations to assumed radial diffusion rates tested for two empirical models of radial transport<br />
<br />
*5. Bob Lysak -- Quarter Wavelength Modes<br />
<br />
*6. Walk-ins<br />
<br />
== 2017 GEM meeting schedule ==<br />
UMEA will hold four sessions session at the 2017 GEM meeting<br />
<br />
'''UMEA Update and plans, general discussion of ULF wave modeling and observations''': 10:30-12:15, Monday, June 19, Port VI-VIII<br />
<br />
*1. Michael Hartinger -- [https://drive.google.com/file/d/0B57bC_V89WW6dnBCbmFFSkFURUk/view?usp=sharing UMEA update]<br />
<br />
*2. Toshi Nishimura -- PFISR measurements during the 2 May 2017 HGSO event<br />
<br />
*3. Xueling Shi -- [https://drive.google.com/file/d/0B57bC_V89WW6OUcyNGNWM0piWnc/view?usp=sharing A Survey of Ionospheric ULF Wave Signatures in SuperDARN Data: Occurrence Statistics and Driving Mechanisms]<br />
<br />
*4. Tetsuo Motoba -- Dayside Auroral Pulsations<br />
<br />
*5. Brian Kress and Rob Redmon -- Newly Available GOES 8-16 Particle and Magnetic Field Measurements<br />
<br />
*6. Dick Wolf -- Theory of magnetospheric buoyancy waves<br />
<br />
<br />
'''ULF wave interactions with the radiation belt and ring current populations''': 1:30-3:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Rualdo Soto-Chavez -- Generation of Pc5-ULF wave by the drift-mirror instability<br />
<br />
*2. Zhiyang Xia -- [https://drive.google.com/file/d/0B57bC_V89WW6Y1VQRXJKd3Qya3c/view?usp=sharing Eigenmode analysis of compressional poloidal modes in a self-consistent magnetic field]<br />
<br />
*3. Mark Engebretson -- [https://drive.google.com/file/d/0B57bC_V89WW6QlM3LU9lTVVwZ1E/view?usp=sharing Statistical study of the upper frequency cutoff of helium band EMIC waves observed by the Van Allen Probes]<br />
<br />
*4. Alexander Drozdov -- Radial diffusion and EMIC waves in the long-term simulation and in the case study<br />
<br />
*5. Seth Claudepierre -- Global MHD simulations driven by idealized Alfvenic fluctuations in the solar wind<br />
<br />
*6. Michael Hartinger -- Radiation belt response to large scale, monochromatic ULF waves: LANL-GEO observations<br />
<br />
<br />
'''ULF wave modeling, including CCMC modeling challenge, Joint with MMV''': 3:30-5:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Lutz Rastaetter -- CCMC ULF wave modeling challenge update and challenge events<br />
<br />
*2. Scot Elkington -- [https://drive.google.com/file/d/0B57bC_V89WW6WUxJcGNqbUU2bzA/view?usp=sharing ULF wave activity and diffusion coefficients during QARBM challenge events], [https://drive.google.com/file/d/0B3MAHZknMumcem40dTVyNVRFbE0/view?usp=sharing Ashar F. Ali’s write-up on Event-Specific Radial Diffusion Coefficients Derived Using RBSP EMFISIS and EFW Data]<br />
<br />
*3. Katariina Nykyri -- KHI challenge events<br />
<br />
*4. All -- Open Discussion of Challenge Events<br />
<br />
*5. Doga Ozturk -- Effects of Increased Solar Wind Dynamic Pressure on the Coupled M-I system under different IMF By<br />
<br />
*6. Kazue Takahashi -- Cavity mode Van Allen Probe observations<br />
<br />
*7. Bob Lysak -- Cavity mode models<br />
<br />
*8. Tom Elsden -- [https://drive.google.com/file/d/0B57bC_V89WW6SDNnYjdwSVM3Y3c/view?usp=sharing The Theoretical Foundation of 3D Alfven Resonances: Time Dependent Solutions]<br />
<br />
<br />
'''Magnetosphere-Ionosphere coupling processes associated with localized disturbances caused by dayside kinetic phenomena: Joint with “Dayside Kinetic Processes…” and “Testing proposed links…”''': 3:30-5:00, Tuesday, June 20, Port VI-VIII<br />
<br />
*1. Peter Chi -- Magnetospheric and ionospheric responses to a localized disturbance: The macroscopic view<br />
<br />
*2. Hui Zhang -- Magnetospheric ULF waves generated by foreshock transients<br />
<br />
*3. Hui Zhang -- Modeling challenges in simulating HFA geoeffects<br />
<br />
*4. Boyi Wang -- Optical signatures of dayside ULF waves during magnetosheath high-speed jets<br />
<br />
*5. Katariina Nykyri -- The effect of magnetosheath seed spectrum on KH evolution and associated mass transport<br />
<br />
*6. Kyle Murphy -- A statistical study of discrete ULF wave power observed by GOES<br />
<br />
== 2017 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2017 mini-GEM] workshop<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 10, 2017, Canal/50<br />
<br />
'''ULF wave modeling challenges'''<br />
Discussion of final plans for the CCMC ULF wave modeling challenge with idealized drivers, as well as open discussion of new challenges involving data-model and model-model comparisons during [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing specific events]. Please come with 1-2 slides showing examples of such comparisons, ideas for improving ULF wave models, and/or ideas for specific modeling challenges/sessions relevant to the FG science questions.<br />
<br />
*1. 12:00-12:30 Overview of CCMC ULF wave modeling challenge with idealized driving conditions, description of challenge events and targets proposed during 2017 GEM meeting and November modeling telecon (Michael Hartinger, Lutz Rastaetter)<br />
*2. 12:30-13:30 [https://drive.google.com/file/d/1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI/view?usp=sharing Open discussion of challenge events and targets (Allison Jaynes,] Robert Rankin), select challenge event to be analyzed at 2018 GEM<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 10, 2017, Canal/50<br />
<br />
'''Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
Discussion of HGSO coordination for ULF wave studies. This includes updates on the [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] conjunction event followed by an open discussion of conjunctions and datasets that are particularly useful for ULF wave studies, including upcoming RBSP-ERG-ground conjunctions. Please come with 1-2 slides showing examples of datasets and past/upcoming conjunctions ideal for addressing the FG science questions: What excites ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in MI coupling? We welcome discussion from both modelers and observers of the types of conjunctions and observations that are most needed to address these questions.<br />
<br />
*1. 13:50-14:20 Recently available datasets and conjunctions for ULF wave studies (Chih-Ping Wang, Xueling Shi, Sana Qamar, Rob Redmon)<br />
*2. 14:20-14:35 Updates on 2 May 2017 conjunction event (Toshi Nishimura, Michael Hartinger)<br />
*3. 14:35-15:20 Upcoming ARASE-RBSP conjunctions (Yoshi Miyoshi), Open Discussion of HGSO coordination for ULF wave studies (Toshi Nishimura, Kazue Takahashi)<br />
<br />
== 2018 GEM meeting schedule ==<br />
UMEA will hold [https://drive.google.com/file/d/1uh-ZOICfOBzNs9KLe3saFMnY9P-oqV9R/view?usp=sharing four sessions] at the 2018 GEM meeting. <br />
<br />
'''ULF waves during particle injections and dipolarizations, joint with Dipolarization and Substorm FG''': 10:30-12:00, Monday, June 18<br />
<br />
*1. Discussion of Session Topic<br />
<br />
*2. Bob Lysak -- [https://drive.google.com/file/d/1w8o5aGYbLsIEy2YmaoosF3WNeWTuLE59/view?usp=sharing Ionospheric Conductivity Effects on Pi2 Pulsations]<br />
<br />
*3. Mike Hartinger -- [https://drive.google.com/file/d/1tcJgspMQDkhPPvSTng4eZP7h-j7jvVR7/view?usp=sharing Pi2 waves during an extended period with stable plasmapause location and variable geomagnetic activity]<br />
<br />
*4. Toshi Nishimura -- Ionosphere observations of Pc5 ULF waves during 2018 HGSO conjunctions<br />
<br />
*5. Xueling Shi -- Long-lasting poloidal ULF waves observed by multiple satellite and SuperDARN HF radars<br />
<br />
*6. Jian Yang -- New RCM-I simulation results for buoyancy waves<br />
<br />
*7. Dick Wolf -- [https://drive.google.com/file/d/1vTkH_lmgXCcvkAYU6HgO_R5ZgIdGji3O/view?usp=sharing Theory of Buoyancy Waves] <br />
<br />
*8. Yan Song -- What Causes the Substorm Expansion Phase and Associated ULF Waves?<br />
<br />
<br />
'''Recent advances in ULF wave research''': 1:30-3:00, Monday, June 18 <br />
<br />
*1. [https://drive.google.com/file/d/1ms9kDYlBhCnxti8z9o9Lx8y0PPmkWu_-/view?usp=sharing Overview of focus group goals and recent progress]<br />
<br />
*2. Brief ULF wave poster overviews (Tuesday posters)<br />
<br />
*3. Kazue Takahashi -- Observation of nightside ULF waves by RBSP and Arase<br />
<br />
*4. Tom Elsden -- Broadband Excitation of 3D Alfven Resonances (FLRs) in an MHD Waveguide<br />
<br />
*5. Boyi Wang -- 2-D structure of foreshock driven Pc5 ULF waves observed by the THEMIS satellites and South Pole imager<br />
<br />
*6. Xiaochen Shen -- Foreshock transient-driven ultra-low frequency (ULF) waves with dawn-dusk asymmetry of wave power<br />
<br />
*7. Chih-Ping Wang -- ULF waves possibly driven by tailward propagation of foreshock perturbations<br />
<br />
*8. Allison Jaynes -- [https://drive.google.com/file/d/1EC3yPvda8fA0LUr9qTfszluNDLs6LdHT/view?usp=sharing Fast diffusion of ultra-relativistic electrons in the outer radiation belt: 17 March 2015 storm event]<br />
<br />
*9. Rualdo Soto -- The Drift-Mirror instability in Earth's inner magnetosphere<br />
<br />
*10. Martin Archer/Mike Hartinger -- [https://drive.google.com/file/d/1t4fmiiZP9wdJ-40TISEC7BuicEd64m7W/view?usp=sharing Results from Sonification and Citizen Science of Magnetospheric ULF waves]<br />
<br />
<br />
'''EMIC wave generation, propagation, and interactions''': 3:30-5:00, Monday, June 18 (discussion leaders: Alexander Drozdov and Maria Usanova)<br />
[https://drive.google.com/open?id=15rjO2UxK8sqdOfHXunDSLv5q-z51vwuD Session Summary]<br />
<br />
*1. Dedong Wang -- EMIC wave observations from Van Allen Probes and MMS<br />
<br />
*2. Mark Engebretson -- [https://drive.google.com/file/d/1jkhN45ezaeQyeAA7HmVuYOF_izjAMYra/view?usp=sharing Van Allen Probes, and ground based magnetometer observations of EMIC waves associated with a modest interplanetary shock]<br />
<br />
*3. Maria Usanova -- MMS Observations of Harmonic Electromagnetic Cyclotron Waves<br />
<br />
*4. Naritoshi Kitamura -- Direct measurements of energy transfer from hot H+ to EMIC waves by MMS<br />
<br />
*5. Bruce Fritz -- ELF Whistler Dependence on a Sunlit Ionosphere<br />
<br />
*6. Chae-Woo Jun -- EMIC waves associated with/without the injection inside/outside the plasmapause<br />
<br />
*7. Hyomin Kim -- Injection-associated EMIC waves<br />
<br />
*8. Sebastian Cervantes -- EMIC wave parameterization in radiation belt reanalysis<br />
<br />
*9. Maria Usanova -- Long-term correlation of EMIC wave activity and radiation belt flux variations<br />
<br />
*10. Alexander Drozdov -- The effects due to the EMIC waves in the VERB code modeling<br />
<br />
<br />
'''ULF wave modeling challenge, joint with MMV FG''': 3:30-5:00, Wednesday, June 20<br />
<br />
*1. Brief ULF wave poster overviews (Thursday posters)<br />
<br />
*2. Mike Hartinger: [https://drive.google.com/file/d/1g2cL_qaDbASLH5DoJ_auJKQCbG96sdQn/view?usp=sharing ULF wave modeling challenge event overview, discussion of challenge targets (continuing during session)]<br />
<br />
*3. Mariko Teramoto: ARASE ULF wave observations during challenge event<br />
<br />
*4. Sam Califf: [https://drive.google.com/file/d/1CvbVG2Dp8e6RokJE0501L8-LU9ipdUFT/view?usp=sharing GOES-14 and 16 observations during the ULF wave challenge event, Data Discussion]<br />
<br />
*5. Toshi Nishimura: [https://drive.google.com/file/d/1cavbwNU4LoAigIsGvGF_UtiTaM97dFtP/view?usp=sharing PFISR measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*6. Dogacan Su Ozturk: [https://drive.google.com/file/d/1MmP3D_4eeJbEVJzUyx8fAtFsG3b0grzy/view?usp=sharing The modeling study of the 27 March 2017 Event] <br />
<br />
*7. Xiaochen Shen: GEM Challenge Event: ULF wave-related electron and proton precipitation/negative dynamic pressure pulse driven EMIC wave<br />
<br />
*8. Tetsuo Motoba: [https://drive.google.com/file/d/1544ngYBXat-zUC1gZqo0lMVUZtYqxUqH/view?usp=sharing Auroral measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*9. Others discuss when their figures/summary plots in event overview pdf are presented…<br />
<br />
== 2018 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2018 mini-GEM] workshop<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF modulation of the aurora, Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
This session focuses on understanding a variety of mechanisms responsible for ULF modulations of the aurora. Eric Donovan will give a 30 minute invited presentation, with the rest of the session open for presentations and discussion on this topic. We welcome discussion of ULF aurora generation mechanisms and the types of conjunctions, observations, and models needed to understand the zoo of ULF auroral modulations. We also welcome discussion of upcoming observation campaigns/satellite conjunctions that would be particularly useful for ULF wave studies.<br />
<br />
*1. Eric Donovan<br />
*2. Tetsuo Motoba<br />
*3. Slava Pilipenko<br />
*4. Boyi Wang / Toshi Nishimura<br />
*5. Open discussion<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF wave modeling challenge and research highlights'''<br />
The first part of the session is for updates on the idealized ULF wave modeling challenge and potential 2019 GEM sessions. The next part of the session is for observation/model presentations relevant to the 27-28 May 2017 ULF wave challenge event and final selection of the modeling challenge targets – all types of models and observations welcome. The last part of the session will be open for 1 slide ULF wave modeling and observation research highlights. <br />
<br />
*1. [https://drive.google.com/file/d/1vqxxn3gYXfzDKABe9yRwMgR8vbKRua_j/view?usp=sharing 2019 GEM session ideas] (Mike Hartinger)<br />
*2. Idealized Modeling Challenge (Lutz Rastaetter)<br />
*3. ULF wave modeling challenge event updates: Rob Redmon/Sam Califf/Mike Hartinger (GOES magnetometer observations), Yoshi Miyoshi (Arase magnetic field observations), [https://drive.google.com/file/d/1B6DGHvAzUhBG79eUJWPsUD2BSjGhQrrw/view?usp=sharing Hyomin Kim (wave-particle interaction)], [https://drive.google.com/file/d/180iaBGrbCPf1rYy6uVZn8OsLTOFREqsD/view?usp=sharing Dong Lin (LFM simulations)]<br />
*4. General ULF wave modeling: [https://drive.google.com/file/d/10gUKitjDPnbV_g9r9CAHDFeE365wUQQd/view?usp=sharing Yaireska Collado-Vega (vortex identification/surface waves)], [https://drive.google.com/file/d/1kkGlYKoYHr7XZf5nT3kaXITUD3tpNynJ/view?usp=sharing Alex Degeling (ULF wave radiation belt interactions)] <br />
*5. Research highlights (1-slide): Rualdo Soto (Van Allen Probes and Cluster satellites’ observations of Pc 5 (mHz) magnetic pulsations), [https://drive.google.com/file/d/1V_Joz3psBQbCBoVKRYaOKdKIEoZ72WgQ/view?usp=sharing Xueling Shi (SuperDARN ULF waves)], Martin Archer (magnetopause surface eigenmodes), [https://drive.google.com/file/d/1Mmi3VfERKswG3dpYidVUgOQra2UG-9s2/view?usp=sharing Martin Archer (sonification)]<br />
<br />
== 2019 GEM meeting schedule ==<br />
<br />
UMEA will hold [https://drive.google.com/file/d/1KmH9XqxrisGH_g4s0ny7QDkutmv7tKlr/view?usp=sharing six sessions] at the 2019 GEM meeting, four joint with other focus groups. <br />
<br />
'''Recent advances in ULF wave research: Modeling''': 3:30-5:00, Monday, June 24 New Mexico room, joint with MMV. <br />
Discussion of advances in ULF wave research, with focus on modeling and modeling challenges (e.g., boundary conditions, grid resolution, missing physics). This includes models of the effects of ULF waves on inner magnetosphere dynamics and wave-particle interactions. We particularly encourage presentations focused on the ULF wave modeling challenge, including data-model comparisons for the 27-28 May 2017 challenge event.<br />
*Mike Hartinger, [https://drive.google.com/open?id=1Drkq9epsQWY4AjpV1EF-8Ci_kaKyN2jk FG updates]<br />
*Jesper Gjerloev, SuperMAG ULF updates<br />
*Tetsuo Motoba, High-time resolution SuperMAG ULF data products<br />
*Lutz Rastaetter, ULF wave modeling challenge<br />
*Maulik Patel, MHD test particle simulations of the 16 July 2017 shock compression of the dayside magnetopause <br />
*Bob McPherron, Pi 2 pulsations during the storm of May 27-29 2017, The Statistics of Pi 2 Pulsation Occurrence during a Major Magnetic Storm<br />
*Dong Lin, LFM simulations of surface waves during challenge event<br />
<br />
'''The ULF response to dayside transients with different temporal/spatial scales''': 10:30-12:00, Wednesday, June 26 Santa Fe room, discussion leader: Tom Elsden, joint with Dayside Kinetics and IHMIC. <br />
Dayside transient phenomena associated with kinetic scale processes cause a variety of ULF wave behaviour in the magnetosphere and further, contribute to significant magnetospheric asymmetries. The aim of this session is to bring together the expertise of the three focus groups listed above, to answer outstanding questions at the overlap of these disciplines. It is hoped that such a discussion should prove fruitful enough to generate a JGR commentary paper in this area. With this in mind, speakers in this session are encouraged to give their views as to the current state of the subject area, and how outstanding problems may be addressed in the future.<br />
* Tom Elsden - Session introduction and goals<br />
* Ferdinand Plaschke (invited) - An overview of dayside transients causing ULF waves<br />
* Tom Elsden - 3D ULF wave modeling with MHD<br />
* Boyi Wang - The role of magnetosheath high-speed jets in triggering magnetospheric Pc5 ULF waves<br />
* Bob Lysak - Ionospheric asymmetries and quarter-wave modes<br />
* Xueling Shi - Conjugate Observations of ULF Waves during an Extended Period of Radial IMF<br />
* Michael Hartinger - Localized magnetopause surface wave activity and [https://drive.google.com/open?id=1d8lDB-FPGa6VErL37aZz3xZSgpNvxbk0 modeling challenges]<br />
* Discussion<br />
<br />
'''ULF wave modeling challenges associated with Magnetosphere-Ionosphere-Thermosphere Coupling''': 3:30-5:00, Wednesday, June 26 Lumpkins Ballroon South, joint with IEMIT, discussion leader Doga Ozturk. <br />
ULF waves play important roles in M-I-T coupling, driving current systems that can lead to I-T system heating and geomagnetically induced currents. This session aims to bring together researchers from the ULF wave and M-I-T coupling research communities to discuss challenges associated with realistically modeling M-I-T coupling processes associated with these waves. The session will begin with a discussion of the ULF wave challenge event; comparisons between modeled / observed (PFISR) conductivities and modeled/observed ULF wave properties will be presented, and the community will be invited to discuss explanations for model/observation differences. The rest of the session is open for short presentations on ULF wave modeling challenges related to M-I-T coupling, including topics such as specifying conductivity and effect of conductivity on wave properties, effect of ionospheric boundary conditions in global simulations, boundary conditions and feedback between magnetosphere and ionosphere, capturing role of waves in ionospheric-thermospheric heating.<br />
# (Invited) Boyi Wang: Ionospheric modulation by Pc5 ULF waves and wave structure detected by PFISR<br />
# (Invited) Xiaojia Zhang / Anton Artemyev: ULF modulation of VLF waves and precipitation<br />
# Doga Ozturk: Update from GEM/CEDAR joint session, [https://drive.google.com/open?id=1WsSf4PFHiBo_iZ3za-bhUWKHFJd4MNQX ULF Wave activity and Meso-Scale electric field variability at high-latitude I-T system]<br />
# Anatoly Streltsov: ULF waves generated by the MI interactions near the plasmapause<br />
# Mergen Alimaganbetov: ULF waves observed in space and on the ground at high and low latitudes<br />
# Mark Engebretson: [https://drive.google.com/open?id=16WbDl3rnuehoifUqFj4oMw_Tn5WhEFlU Multi-Instrument Observations of Nighttime Impulsive Magnetic Events]<br />
# Bob Lysak: Modeling ionospheric conductance and ground magnetic fields<br />
# Yan Song: ULF wave, M-I coupling and Auroral formation.<br />
<br />
[https://drive.google.com/open?id=1wGpZPk086Zs54uWGtYiRjByPmVCFnsSv '''EMIC waves''']: 10:30-12:00, Thursday, June 27 New Mexico room, joint with Radiation Belt. <br />
The generation mechanisms of Electromagnetic Ion Cyclotron (EMIC) waves, their effects on energetic electrons and ions, and their propagation through the magnetosphere-ionosphere system are challenging topics that involve multiple GEM research areas. Despite several years of observations and improved global wave statistics, there are many unresolved questions that limit further investigation, modeling and prediction of dynamical processes in the inner magnetosphere involving EMIC waves. Hence, we invite short presentations that discuss recent findings in different areas of EMIC wave research and identify observations/models most needed to address unresolved questions.<br />
*Robert Allen, Outer magnetospheric EMIC wave source regions characterized by Cluster<br />
*Sarah Vines, EMIC waves in the outer magnetosphere: Observations of an off-equator source region<br />
*Justin Lee, [https://drive.google.com/open?id=1xlJfppvWgOC_JHy6QgPpptcI3GjkYuLC EMIC wave observations by MMS] <br />
*Chao Yue, The relationship between EMIC wave properties and proton distributions based on Van Allen Probes observations<br />
*Kristine Sigsbee, Simultaneous EMIC Wave Observations During a Van Allen Probes Conjunction<br />
*Hyomin Kim, [https://drive.google.com/open?id=1UmmYHxyIcH2FfQmRnffGNnCUNjH8S5qQ Observations of Particle Loss due to Injection-Associated EMIC Waves]<br />
*Yuri Shprits, Dips in PSD and how they are related to EMIC wave scattering<br />
*Richard Denton, Electromagnetic ion cyclotron waves in the dipole magnetosphere and pitch angle scattering of sub-MeV relativistic electrons by those waves<br />
*Qianli Ma, Pitch angle scattering of radiation belt electrons due to statistical EMIC wave spectra <br />
<br />
'''Recent advances in ULF wave research: Observations and HGSO coordination for ULF wave studies''': 1:30-3:00, Thursday, June 27 New Mexico room. <br />
Discussion of recent advances in ULF wave research, with focus on observations and a general discussion of Heliophysics/Geospace System Observatory coordination for ULF wave studies. We particularly encourage presentations describing (1) past or upcoming satellite conjunctions, (2) new data analysis tools, and/or (3) instrumentation/operation modes of interest to the ULF wave research community.<br />
*Seth Claudepierre/Matina Gkioulidou (invited), [https://drive.google.com/open?id=1bjENFjvkWSjLYA_EfFuTxhCyKtVlk7c1 Van Allen Probes: End of Mission and ULF wave studies]<br />
*Tetsuo Motoba, SuperMAG ULF wave tools<br />
*Sarah Vines, Determining EMIC wave vector properties through multi-point measurements: The wave curl analysis<br />
*Aaron Breneman, [https://drive.google.com/open?id=1NHlf9I_VV6vkx9id_NL4gE6YhEsSRxkG BARREL precipitation during solar wind driven ULF wave events] <br />
*Anatoly Streltsov, Effect of the Hall conductivity on generation of ULF waves<br />
*Mohammad Barani, [https://drive.google.com/open?id=1sCMVi0pbWsggpUUnotdl-4LO_hfGGFEc Estimating the Azimuthal Mode Structure of ULF Waves Based on Multiple GOES Satellite Observations]<br />
*Kazue Takahashi, L versus time structures of ground magnetic pulsations<br />
*Chih-Ping Wang, Earthward propagation of Pi2 waves<br />
<br />
'''ULF waves driven by wave-particle interactions and instabilities''': 3:30-5:00, Thursday, June 27 Lumpkins Ballroon South, discussion leaders: Xueling Shi and Hyomin Kim. <br />
Many ULF wave modes are closely related to instabilities and wave-particle interactions inside the magnetosphere: poloidal mode waves associated with particle injections, mirror/drift-mirror modes, buoyancy waves… These waves are often discussed in different contexts and in different GEM sessions. In addition, there have been relatively few studies of modeling internally generated ULF waves. The purpose of this session is to bring together modelers and observers to discuss the underlying processes that drive/damp these waves, their impact(s) on the M-I system (ring current, radiation belt, ionosphere,…), and the models/observations needed to better understand wave dynamics.<br />
*Xuzhi Zhou (invited), Acceleration of relativistic electrons by global-scale ULF waves<br />
*Tomotsugu Yamakawa (invited), [https://drive.google.com/open?id=1PEsq7oWVeXwwXn3JvE5ZvWQIIjfXwKRB Simulation of the excitation of storm-time Pc5 ULF waves by ring current ions based on the drift-kinetic model]<br />
*Frank Toffoletto, Normal Mode Analysis of Buoyancy Waves <br />
*Peter Chi, Observations of High-m Poloidal Waves along Magnetospheric Field Lines<br />
*Mike Hartinger, [https://drive.google.com/open?id=17do2Jxy01SJPmOloBxzTPID9ZzqaPGZI Observations of wave-particle interactions using MagEIS ultra-high resolution energy channels]<br />
*Jiang Liu, Ultralow Frequency Waves Deep Inside the Inner Magnetosphere Driven by Dipolarizing Flux Bundles, and their interaction with electrons<br />
*Kyle Murphy, TBD<br />
<br />
== 2019 Mini-GEM schedule ==<br />
UMEA will hold one session at the [https://gemworkshop.org/ 2019 mini-GEM] workshop<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 8, 2019, Nevada Room<br />
<br />
'''ULF wave modeling challenge event, HGSO coordination, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge and potential 2020 GEM sessions. The next part of the session is open for ULF wave research presentations discussing the ULF wave modeling challenge event or current/upcoming observation campaigns that are particularly useful for ULF wave studies. The last part of the session will be open for 1 slide ULF wave research highlights.<br />
<br />
*Mike Hartinger, [https://drive.google.com/open?id=1eQQc07g7nCTEGNwaTGesQx4ymIU6m815 UMEA updates and proposed sessions for 2020 GEM workshop]<br />
*Dong Lin, [https://drive.google.com/open?id=1SqiD1u69eyKNzLyrtvTWbMK05L5OrkrO LFM Simulations of ULF wave modeling challenge event]<br />
*Mohammad Barani, [https://drive.google.com/open?id=1fQAossqjQ-aBuGIBhDIW6I0_WEtHdQsF High-fidelity ULF wave azimuthal mode number structure estimation using MMS magnetometer observations], [https://www.youtube.com/watch?reload=9&v=W5Vya8pCjNE&t=1s link to related presentation on YouTube]<br />
*Chih-Ping Wang, [https://drive.google.com/open?id=19ugyLwyIp4YRuLpDuzT330IdbbFppQcr Inward propagation of Pi2 wave from plasma sheet to inner magnetosphere: THEMIS-GOES conjunctions]<br />
*Walk-ins<br />
<br />
== 2020 VGEM schedule ==<br />
UMEA will hold two sessions at the [https://gemworkshop.org/ 2020 Virtual GEM] workshop<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave modeling challenge event'''<br />
(Hosted by Xueling Shi)<br />
The first part of the session is for updates on research related to the challenge event (27-29 May 2017 storm): All modeling and observation talks welcome as long as they're related to this event. The last part of the session will be for short research highlights and oral summaries of posters.<br />
<br />
*Mike Hartinger (10 minutes), [https://drive.google.com/file/d/1Z5-g7-f-iKfpuWD03WVkA3Q2Rb9mbQfe/view?usp=sharing 2020 UMEA updates and overview of challenge event] <br />
*Simone Di Matteo (15 minutes), [https://drive.google.com/file/d/1acsSyIszg95muYurOkn0RmW0btblS3Ja/view?usp=sharing On some features characterizing the plasmasphere–magnetosphere–ionosphere system during the geomagnetic storm of 27 May 2017] <br />
*Bob McPherron (15 minutes), [https://drive.google.com/file/d/1pnqs49KamZF2BLgMdaoOroktmkBNnj1c/view?usp=sharing ULF wave activity at synchronous orbit during the May 27-29, 2017 Magnetic storm]<br />
*Boyi Wang (15 minutes), Ionospheric modulation by storm-time Pc5 ULF waves and wave structure detected by PFISR-THEMIS conjunctions<br />
*Lutz Rastaetter (15 minutes), [https://drive.google.com/file/d/1H9nTOrpQHX0NEau1eSktWjWM0KYbyfnM/view?usp=sharing Idealized ULF wave modeling challenge: high-resolution runs] <br />
*Mark Engebretson (5 minutes), [https://drive.google.com/file/d/1kvWyYe52OkTB7uUmKWRDSO305Jina-Yy/view?usp=sharing Nighttime magnetic perturbation events observed in Arctic Canada: Superposed epoch analysis]<br />
*Jinxing Li (5 minutes), Electron microinjections in association with compressional ULF waves: MMS observations<br />
*Xiaojia Zhang (5 minutes), [https://drive.google.com/file/d/1fKwf0t1ohDZIxF5NPtsgGKNP0cBEqECn/view?usp=sharing Spreading of Magnetopause-Generated Ultra-Low-Frequency Perturbations and the Associated Whistler Modulation] <br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave research highlights'''<br />
These will be contributed talks with priority given to graduate students and postdocs. The rationale is that virtual GEM will not provide the same type of networking opportunities as in-person GEM, and we'd like to balance this somewhat by giving more opportunities to students/postdocs to present their work on ULF waves.<br />
<br />
All presentations are 10 minutes including discussion:<br />
*Rachel Rice, Characteristics of Kelvin-Helmholtz Waves as Observed by MMS<br />
*Dong Lin, Idealized ULF wave simulations with GAMERA-RCM model<br />
*Boyi Wang, The interaction between ions and the ULF waves driven by a foreshock transient<br />
*Jayashree Bulusu, [https://drive.google.com/file/d/1YyRAo0I7Cf4-buxhTBXLxYaTWw7GX6SZ/view?usp=sharing Investigation of Pi2s during super quiet conditions from low and mid-latitudes]<br />
*Changzhi Zhai, High-m Poloidal ULF Wave Signatures in GPS TEC Data<br />
*Simone Di Matteo, [https://drive.google.com/file/d/1yYaidiu7O4a0Z8PeQXELiyatB03hJQyX/view?usp=sharing Power Spectral Density Background Estimate and Signal Detection via the Multitaper Method] <br />
*Yixin Hao, [https://drive.google.com/file/d/1iIf5QpLE9t7IThiIPNwhCoRHrbFDoR8R/view?usp=sharing Simultaneous observations of localized and global drift resonance]<br />
*Mohammad Barani, [https://drive.google.com/file/d/1it2y8JXJzrbjmt56MWia7ffbei63gIwC/view?usp=sharing Effects of realistic mode number structure on radial diffusion estimation]<br />
<br />
== 2021 Virtual Mini-GEM schedule ==<br />
UMEA will hold one session at the Virtual Mini-GEM Worskhop.<br />
<br />
'''Time''': 12:00-14:00 US Eastern Time, Friday, January 22, 2021<br />
<br />
'''ULF wave modeling challenge event, planning for 2021 GEM meeting, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge event, including an invited talk by Naoko Takahashi. The next part of the session will be for open discussion on potential 2021 GEM sessions. The final part of the session will be open for ULF wave research highlights. <br />
*Mike Hartinger, Brief Introduction to Challenge event<br />
*Naoko Takahashi, Relative contribution of ULF waves and whistler-mode chorus to the radiation belt variation during May 2017 storm<br />
*Ian Kelley, GPS TEC response during the ULF wave challenge event<br />
*Mike Hartinger, ULF wave geoelectric fields during the challenge event<br />
*All, Planning for 2021 GEM sessions<br />
*Bob Lysak, FLRs in Jupiter's magnetosphere<br />
*Toshi Nishimura, Upcoming conjunctions for ULF wave studies<br />
*Toshi Nishimura, PFISR and all-sky imager observations of Pc5 ULF waves during substorms<br />
*Francesco Lena, Detection of Hertz Frequency Multiharmonic Field Line Resonances at Low-L (L=1.1–1.5) During Van Allen Probe Perigee Passes<br />
<br />
== 2021 VGEM schedule ==<br />
UMEA will lead four sessions at the [https://gemworkshop.org/ 2021 Virtual GEM] workshop.<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''Recent Advances in ULF Wave Research'''<br />
This session will start with a short update on the ULF wave modeling challenge. The rest of the session will be for recent advances in ULF wave research, with priority given to presentations (1) with data or modeling results related to the challenge event (27-28 May 2017) or (2) discussions of ULF wave data-model comparisons.<br />
<br />
*Michelle Salzano, IPDP-Pi1B - modeling drift shell splitting<br />
*Aditi Upadhyay, Occurrence Characteristics of Electromagnetic Ion Cyclotron Waves at the Indian Antactrtic Station, Maitri<br />
*Yangyang Shen, Tens to hundreds of keV electron precipitation driven by kinetic Alfven waves during an electron injection<br />
*Chih-Ping Wang, Statistical results for Pi2 waves associated with the plasma sheet BBFs observed by THEMIS-RBSP pair with RBSP inside or outside the plasmasphere<br />
*Tom Elsden, Modelling the Varying Location of Field Line Resonances During Geomagnetic Storms<br />
*Denny Oliveira, Factors controlling shock-induced magnetospheric ULF waves<br />
*Short Oral Summaries of Posters<br />
*Open Discussion<br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''The Future of ULF Wave Research'''<br />
<br />
Hosted by Ayomide Olabode<br />
<br />
This session will begin with a review of the ULF wave FG’s original goals, research topics covered in the last 5 years and related activities, and unresolved questions and research objectives. The remainder of the session is open for 1-2 slide presentations on major unresolved questions in ULF wave research. We particularly encourage presentations (1) exploring topics that could be addressed by current/future GEM FG or decadal survey white paper, (2) highlighting major questions or obstacles preventing progress in ULF wave research (e.g., missing data in a critical region, missing theory/modeling component), (3) discuss how ULF wave researchers can best take advantage of future satellite missions, ground-based infrastructure, computing advances/big data/AI, and modeling/theory advances. <br />
<br />
*Mike Hartinger, Retrospective on the ULF wave focus group<br />
*Martin Archer, Surface Waves<br />
*Tom Elsden, 3D FLRs<br />
*Alexander Drozdov, Radial Diffusion<br />
*Ayomide Olabode and Michelle Salzano, Ground Magnetic Perturbations<br />
*Mark Engebretson, Pc1 waves / MMS k-vector technique<br />
*Xueling Shi, Applications of TEC observations<br />
*Open discussion, walk-in presentations welcome<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Tuesday, July 27, 2021<br />
<br />
'''ULF Wave M-I Coupling Processes'''<br />
This session is joint with the IEMIT FG. The session will begin with a review of the role of ULF waves on M-I coupling. The remainder of the session is open for 5-min presentations on ULF wave topics related to M-I coupling, e.g., auroral acceleration, particle precipitation, geomagnetic perturbations, GICs, etc. More questions and discussions will be left to the end.<br />
<br />
*Hui Zhang, Role of ULF waves in M-I coupling<br />
*Chaosong Huang, Global Pc5 pulsations<br />
*Tetsuo Motoba, Daytime Pc5 Diffuse Auroral Pulsations and Their Association With Outer Magnetospheric ULF Waves<br />
*Anton Artemyev, ULF driven precipitations as observed by ELFIN<br />
*Mark Engebretson, Magnetic perturbation events related to GICs<br />
*Denny Oliveira, IP shock impact angle control of local intense dB/dt variations during substorm<br />
*Xueling Shi, Sources of Intense Geoelectric Fields in the United States<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Friday, July 30, 2021<br />
<br />
'''Coupling Between ULF Waves and Cold Plasma'''<br />
<br />
Hosted by Rachel Rice<br />
<br />
This session is joint with the Cold Plasma FG. The session will begin with a review of mechanisms that couple cold plasma populations to ULF waves by Richard Denton. The remainder of the session is for contributed presentations describing (1) recent advances in our understanding of cold plasma interactions with ULF waves and (2) outstanding questions that could be discussed in future cold plasma FG sessions.<br />
<br />
*Richard Denton, Coupling Between ULF Waves and Cold Plasma<br />
*Alex Degeling, Modeling ULF Waves Trapped in a Plasmaspheric Density Plume <br />
*Eun Hwa Kim, Can Electromagnetic Ion Cyclotron Waves Propagate to the Ground?: 2D Full Wave Simulation<br />
*Bob Lysak, Relation of plasmaspheric cavity modes to Pi2 pulsations in an asymmetric plasmasphere<br />
*Yixin Hao, ULF wave-cold plasma interaction<br />
*Mike Hartinger, The relationship between global ULF wave properties and radial Alfven speed profile</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=FG:_ULF_Wave_Modeling,_Effects,_and_Applications&diff=5415FG: ULF Wave Modeling, Effects, and Applications2021-07-30T23:00:28Z<p>Mdhartin: /* 2021 VGEM schedule */</p>
<hr />
<div>''Focus Group Leaders:''<br />
* Michael Hartinger, Space Science Institute (mhartinger@spacescience.org)<br />
* Kazue Takahashi, Applied Physics Laboratory<br />
* Alexander Drozdov, UCLA<br />
* Maria Usanova, University of Colorado<br />
* Brian Kress, University of Colorado and NOAA-NCEI<br />
* Xueling Shi, Virginia Tech<br />
<br />
Focus Group term: 2016-2021<br />
<br />
Join the discussion on [https://gemworkshop.slack.com/archives/C016U8PA7TJ Slack], including discussion related to the 2020 GEM and 2021 miniGEM meetings.<br />
<br />
== Science Questions ==<br />
Our group aims to address the following broad science questions: What mechanisms excite ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in Magnetosphere-Ionosphere coupling?<br />
<br />
== Focus Group Proposal ==<br />
[http://gem.epss.ucla.edu/mediawiki/FGproposals/Hartinger-UMEA.pdf ULF Wave Modeling, Effects, and Applications (UMEA)] (December 2015)<br />
<br />
== ULF wave modeling challenge ==<br />
<br />
One part of the ULF wave modeling challenge involves running several global MHD simulation codes with identical, idealized solar wind driving conditions (sinusoidal density variation), then comparing the resulting global ULF wave properties and discussing differences in the context of differing boundary conditions, grids, etc. More details can be found here: [http://ccmc.gsfc.nasa.gov/challenges/ULF/ ULF wave modeling challenge at CCMC]<br />
<br />
Another part of the ULF wave modeling challenge involves data-model comparisons during specific events. At the 2017 GEM and mini-GEM meetings several [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing challenge events] were proposed, including two [https://drive.google.com/open?id=1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI 2017 events].<br />
<br />
We have selected the [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing 27-28 May 2017 storm event] for the ULF wave modeling challenge due to favorable solar wind coverage and availability of numerous satellites (MMS, ARASE, THEMIS, RBSP, Cluster, GOES, ...) and ground-based observations for global context and multi-point wave observations. We will be continuously updating this [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing overview presentation] with observation and modeling results. Model output and observations for the challenge event - including global densities from the NURD model - can be obtained [https://drive.google.com/drive/folders/1Bk9vJtbEHd-vSuYqr3UG9NGCqaBn69hw?usp=sharing here]. If you would like to add additional observations/model output to the google drive or overview pdf, please contact the co-chairs.<br />
<br />
CCMC has run several global MHD simulation codes using the driving conditions of the ULF wave challenge event. At the 2019 GEM meeting and future GEM/mini-GEM meetings, we plan data-model comparisons to identify where model/data don't agree and discuss these differences in the context of incorrect boundary conditions (e.g., compare model ionosphere to local PFISR-derived conductivities), missing physics, numerical dissipation, etc. Please contact CCMC/Lutz Rastaetter and model developers before using this simulation output in publications:<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_SWMF_040319_1 Space Weather Modeling Framework simulation], IMF Bx=0 (other parameters as in event). Full 2-day event, 3D output every 15s, virtual ground magnetometer. If you haven't used CCMC visualization tools before, be aware that you shouldn’t submit multiple visualization requests at the same time, as this could crash CCMC server for these large 3D files. Instead, request a batch process or wait for the first visualization request to complete. The easiest/fastest visualization is to follow the link above and scroll down until you see the virtual ground magnetometer and satellites list. Click on the magnetometer/satellite of interest, then select which parameter(s) to display/download. <br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_1 OpenGGCM run 1] – IMF Bx = -7 nT. Smaller time range available on 28 May 0400-1000, only virtual ground magnetometer from POKR/CMO available now. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_1 Full results including virtual satellite.]<br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_2 Open GGCM run 2] – IMF Bx = 0 nT (as in SWMF simulation). Same format as other OpenGGCM simulation. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_2 Full results including virtual satellite.]<br />
<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_LFM_051519_2 LFM simulation]<br />
<br />
== ULF wave HGSO event coordination ==<br />
Our group is helping coordinate analysis of conjunction events for ULF wave studies, including requesting instrument operation modes favorable for ULF wave analysis.<br />
<br />
The [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] 0400-0800 UT conjunction event includes several satellites (THEMIS, Cluster, Van Allen Probes, GOES, Geotail, FIREBIRD, METOP, POES, DMSP) in the pre-midnight sector during a conjunction with the Poker Flat Incoherent Scatter Radar and several SuperDARN radars. PFISR was operating throughout the conjunction, several SuperDARN radars were in high resolution sampling modes, and several satellites were operating in fast survey/burst mode. The conjunction is favorable for modeling and observation studies of magnetosphere-ionosphere coupling via ULF waves, wave-particle interactions, global ULF wave properties, and many other topics. [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing This pdf] summarizes preliminary results<br />
<br />
Several web-based tools are available for identifying future conjunctions, including [https://ergsc.isee.nagoya-u.ac.jp/analysis/index.shtml.en upcoming conjunctions between ARASE and Van Allen Probes/ground] and conjunctions between [https://swarm-aurora.com/conjunctionFinder/ SWARM/all-sky cameras].<br />
<br />
'''There are also many specialized, web-based tools for ULF wave analysis (please contact FG co-chairs to add to this list):'''<br />
<br />
*SuperMAG ground-based magnetometer [http://supermag.jhuapl.edu/rBrowse/?start=2001-01-30T05%3A00%3A00.000Z&step=14400 global ULF wave plots]<br />
<br />
*CARISMA ground-based magnetometer [http://www.carisma.ca/carisma-data/fgm-pc1-power-spectra Pc1 power spectra] and [http://www.carisma.ca/carisma-data/fgm-pc5-power-spectra Pc5 power spectra]<br />
<br />
*Augsburg College/UNH Arctic and Antarctic [http://space.augsburg.edu/searchcoil/index.html search coil magnetometer survey plots] <br />
<br />
*Augsburg College (hosted by ViRBO) [http://virbo.org/Augsburg/ULF ULF wave index]<br />
<br />
*[http://vt.superdarn.org/tiki-index.php?page=DaViT+DynFFT SuperDARN wave analysis] and [http://vt.superdarn.org/tiki-index.php?page=Data+Inventory identification of high time-resolution SuperDARN beams]<br />
<br />
*THEMIS satellite fluxgate magnetometer [http://themis.ssl.berkeley.edu/summary.php?year=2014&month=05&day=11&hour=0024&sumType=thmfgmdyn&type=themislinfgl wave survey plots]<br />
<br />
*National Institute of Polar Research inter-hemispheric comparisons of Syowa/Iceland [http://iugonet0.nipr.ac.jp/web/induction/ induction magnetometer spectra]<br />
<br />
*[http://mist.nianet.org/Satellite_Conjunctions/ Inter-hemispheric comparisons] during satellite conjunctions with Arctic(DTU Space)/Antarctic(Virginia Tech) magnetometers<br />
<br />
*[http://kho.unis.no/uaf_msp.htm Meridian Scanning Photometer plots] from [http://kho.unis.no/ UNIS/Kjell Henriksen Observatory], for context on open-closed boundary and ULF modulation of the aurora<br />
<br />
== Summary Reports for GEM workshops ==<br />
[https://drive.google.com/file/d/1QLH8FcKm3-f25aLwoetOuYJGZu5sPgN3/view?usp=sharing 2016 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1SRIv6Gn-NNnqGPHGvjvZQcdDml2GQpv_/view?usp=sharing 2017 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1clzFHWrxC9hvYf9kECJx4bPn9xn8WwsG/view?usp=sharing 2018 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1_fLwZFCLBTBHnq8HkaFPWUvaIY81E-t0/view?usp=sharing 2019 UMEA FG report]<br />
<br />
== 2016 Mini-GEM schedule ==<br />
UMEA will hold one session at the [http://www.cpe.vt.edu/gem-mini/ mini-GEM workshop]: ULF wave modeling, effects and applications updates<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 11, 2016<br />
<br />
'''Location''': Oregon Room, Holiday Inn Golden Gateway<br />
<br />
'''Schedule:'''<br />
<br />
'''First Half (12:00 – 12:45): 3 talks (~15 min each):'''<br />
<br />
*1. Mike Hartinger -- [http://gem.epss.ucla.edu/mediawikiwiki/images/7/7c/UMEAoverview_miniGEM2016.pdf Overview of UMEA current activities, discussion of future plans]<br />
<br />
*2. Lutz Rastaetter -- ULF wave modeling challenge at CCMC<br />
<br />
*3. Robert Rankin -- Modeling the global properties and ground-based signatures of ULF waves and wave-particle interactions<br />
<br />
'''Second Half (12:45 – 13:30): (5 minutes each, 1-2 slides, order of talks may change):'''<br />
<br />
*1. Xueling Shi -- SuperDARN THEMIS Mode Data Tracker & ULF Wave Detection<br />
<br />
*2. Richard Denton -- Mass density inferred from Alfven wave frequencies measured by RBSP<br />
<br />
*3. Lars Daldorff -- ULF waves, particle transport and energization in global MHD simulations with plasmasphere<br />
<br />
*4. Alexander Drozdov -- Dependence of radiation belt simulations to assumed radial diffusion rates tested for two empirical models of radial transport<br />
<br />
*5. Bob Lysak -- Quarter Wavelength Modes<br />
<br />
*6. Walk-ins<br />
<br />
== 2017 GEM meeting schedule ==<br />
UMEA will hold four sessions session at the 2017 GEM meeting<br />
<br />
'''UMEA Update and plans, general discussion of ULF wave modeling and observations''': 10:30-12:15, Monday, June 19, Port VI-VIII<br />
<br />
*1. Michael Hartinger -- [https://drive.google.com/file/d/0B57bC_V89WW6dnBCbmFFSkFURUk/view?usp=sharing UMEA update]<br />
<br />
*2. Toshi Nishimura -- PFISR measurements during the 2 May 2017 HGSO event<br />
<br />
*3. Xueling Shi -- [https://drive.google.com/file/d/0B57bC_V89WW6OUcyNGNWM0piWnc/view?usp=sharing A Survey of Ionospheric ULF Wave Signatures in SuperDARN Data: Occurrence Statistics and Driving Mechanisms]<br />
<br />
*4. Tetsuo Motoba -- Dayside Auroral Pulsations<br />
<br />
*5. Brian Kress and Rob Redmon -- Newly Available GOES 8-16 Particle and Magnetic Field Measurements<br />
<br />
*6. Dick Wolf -- Theory of magnetospheric buoyancy waves<br />
<br />
<br />
'''ULF wave interactions with the radiation belt and ring current populations''': 1:30-3:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Rualdo Soto-Chavez -- Generation of Pc5-ULF wave by the drift-mirror instability<br />
<br />
*2. Zhiyang Xia -- [https://drive.google.com/file/d/0B57bC_V89WW6Y1VQRXJKd3Qya3c/view?usp=sharing Eigenmode analysis of compressional poloidal modes in a self-consistent magnetic field]<br />
<br />
*3. Mark Engebretson -- [https://drive.google.com/file/d/0B57bC_V89WW6QlM3LU9lTVVwZ1E/view?usp=sharing Statistical study of the upper frequency cutoff of helium band EMIC waves observed by the Van Allen Probes]<br />
<br />
*4. Alexander Drozdov -- Radial diffusion and EMIC waves in the long-term simulation and in the case study<br />
<br />
*5. Seth Claudepierre -- Global MHD simulations driven by idealized Alfvenic fluctuations in the solar wind<br />
<br />
*6. Michael Hartinger -- Radiation belt response to large scale, monochromatic ULF waves: LANL-GEO observations<br />
<br />
<br />
'''ULF wave modeling, including CCMC modeling challenge, Joint with MMV''': 3:30-5:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Lutz Rastaetter -- CCMC ULF wave modeling challenge update and challenge events<br />
<br />
*2. Scot Elkington -- [https://drive.google.com/file/d/0B57bC_V89WW6WUxJcGNqbUU2bzA/view?usp=sharing ULF wave activity and diffusion coefficients during QARBM challenge events], [https://drive.google.com/file/d/0B3MAHZknMumcem40dTVyNVRFbE0/view?usp=sharing Ashar F. Ali’s write-up on Event-Specific Radial Diffusion Coefficients Derived Using RBSP EMFISIS and EFW Data]<br />
<br />
*3. Katariina Nykyri -- KHI challenge events<br />
<br />
*4. All -- Open Discussion of Challenge Events<br />
<br />
*5. Doga Ozturk -- Effects of Increased Solar Wind Dynamic Pressure on the Coupled M-I system under different IMF By<br />
<br />
*6. Kazue Takahashi -- Cavity mode Van Allen Probe observations<br />
<br />
*7. Bob Lysak -- Cavity mode models<br />
<br />
*8. Tom Elsden -- [https://drive.google.com/file/d/0B57bC_V89WW6SDNnYjdwSVM3Y3c/view?usp=sharing The Theoretical Foundation of 3D Alfven Resonances: Time Dependent Solutions]<br />
<br />
<br />
'''Magnetosphere-Ionosphere coupling processes associated with localized disturbances caused by dayside kinetic phenomena: Joint with “Dayside Kinetic Processes…” and “Testing proposed links…”''': 3:30-5:00, Tuesday, June 20, Port VI-VIII<br />
<br />
*1. Peter Chi -- Magnetospheric and ionospheric responses to a localized disturbance: The macroscopic view<br />
<br />
*2. Hui Zhang -- Magnetospheric ULF waves generated by foreshock transients<br />
<br />
*3. Hui Zhang -- Modeling challenges in simulating HFA geoeffects<br />
<br />
*4. Boyi Wang -- Optical signatures of dayside ULF waves during magnetosheath high-speed jets<br />
<br />
*5. Katariina Nykyri -- The effect of magnetosheath seed spectrum on KH evolution and associated mass transport<br />
<br />
*6. Kyle Murphy -- A statistical study of discrete ULF wave power observed by GOES<br />
<br />
== 2017 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2017 mini-GEM] workshop<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 10, 2017, Canal/50<br />
<br />
'''ULF wave modeling challenges'''<br />
Discussion of final plans for the CCMC ULF wave modeling challenge with idealized drivers, as well as open discussion of new challenges involving data-model and model-model comparisons during [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing specific events]. Please come with 1-2 slides showing examples of such comparisons, ideas for improving ULF wave models, and/or ideas for specific modeling challenges/sessions relevant to the FG science questions.<br />
<br />
*1. 12:00-12:30 Overview of CCMC ULF wave modeling challenge with idealized driving conditions, description of challenge events and targets proposed during 2017 GEM meeting and November modeling telecon (Michael Hartinger, Lutz Rastaetter)<br />
*2. 12:30-13:30 [https://drive.google.com/file/d/1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI/view?usp=sharing Open discussion of challenge events and targets (Allison Jaynes,] Robert Rankin), select challenge event to be analyzed at 2018 GEM<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 10, 2017, Canal/50<br />
<br />
'''Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
Discussion of HGSO coordination for ULF wave studies. This includes updates on the [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] conjunction event followed by an open discussion of conjunctions and datasets that are particularly useful for ULF wave studies, including upcoming RBSP-ERG-ground conjunctions. Please come with 1-2 slides showing examples of datasets and past/upcoming conjunctions ideal for addressing the FG science questions: What excites ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in MI coupling? We welcome discussion from both modelers and observers of the types of conjunctions and observations that are most needed to address these questions.<br />
<br />
*1. 13:50-14:20 Recently available datasets and conjunctions for ULF wave studies (Chih-Ping Wang, Xueling Shi, Sana Qamar, Rob Redmon)<br />
*2. 14:20-14:35 Updates on 2 May 2017 conjunction event (Toshi Nishimura, Michael Hartinger)<br />
*3. 14:35-15:20 Upcoming ARASE-RBSP conjunctions (Yoshi Miyoshi), Open Discussion of HGSO coordination for ULF wave studies (Toshi Nishimura, Kazue Takahashi)<br />
<br />
== 2018 GEM meeting schedule ==<br />
UMEA will hold [https://drive.google.com/file/d/1uh-ZOICfOBzNs9KLe3saFMnY9P-oqV9R/view?usp=sharing four sessions] at the 2018 GEM meeting. <br />
<br />
'''ULF waves during particle injections and dipolarizations, joint with Dipolarization and Substorm FG''': 10:30-12:00, Monday, June 18<br />
<br />
*1. Discussion of Session Topic<br />
<br />
*2. Bob Lysak -- [https://drive.google.com/file/d/1w8o5aGYbLsIEy2YmaoosF3WNeWTuLE59/view?usp=sharing Ionospheric Conductivity Effects on Pi2 Pulsations]<br />
<br />
*3. Mike Hartinger -- [https://drive.google.com/file/d/1tcJgspMQDkhPPvSTng4eZP7h-j7jvVR7/view?usp=sharing Pi2 waves during an extended period with stable plasmapause location and variable geomagnetic activity]<br />
<br />
*4. Toshi Nishimura -- Ionosphere observations of Pc5 ULF waves during 2018 HGSO conjunctions<br />
<br />
*5. Xueling Shi -- Long-lasting poloidal ULF waves observed by multiple satellite and SuperDARN HF radars<br />
<br />
*6. Jian Yang -- New RCM-I simulation results for buoyancy waves<br />
<br />
*7. Dick Wolf -- [https://drive.google.com/file/d/1vTkH_lmgXCcvkAYU6HgO_R5ZgIdGji3O/view?usp=sharing Theory of Buoyancy Waves] <br />
<br />
*8. Yan Song -- What Causes the Substorm Expansion Phase and Associated ULF Waves?<br />
<br />
<br />
'''Recent advances in ULF wave research''': 1:30-3:00, Monday, June 18 <br />
<br />
*1. [https://drive.google.com/file/d/1ms9kDYlBhCnxti8z9o9Lx8y0PPmkWu_-/view?usp=sharing Overview of focus group goals and recent progress]<br />
<br />
*2. Brief ULF wave poster overviews (Tuesday posters)<br />
<br />
*3. Kazue Takahashi -- Observation of nightside ULF waves by RBSP and Arase<br />
<br />
*4. Tom Elsden -- Broadband Excitation of 3D Alfven Resonances (FLRs) in an MHD Waveguide<br />
<br />
*5. Boyi Wang -- 2-D structure of foreshock driven Pc5 ULF waves observed by the THEMIS satellites and South Pole imager<br />
<br />
*6. Xiaochen Shen -- Foreshock transient-driven ultra-low frequency (ULF) waves with dawn-dusk asymmetry of wave power<br />
<br />
*7. Chih-Ping Wang -- ULF waves possibly driven by tailward propagation of foreshock perturbations<br />
<br />
*8. Allison Jaynes -- [https://drive.google.com/file/d/1EC3yPvda8fA0LUr9qTfszluNDLs6LdHT/view?usp=sharing Fast diffusion of ultra-relativistic electrons in the outer radiation belt: 17 March 2015 storm event]<br />
<br />
*9. Rualdo Soto -- The Drift-Mirror instability in Earth's inner magnetosphere<br />
<br />
*10. Martin Archer/Mike Hartinger -- [https://drive.google.com/file/d/1t4fmiiZP9wdJ-40TISEC7BuicEd64m7W/view?usp=sharing Results from Sonification and Citizen Science of Magnetospheric ULF waves]<br />
<br />
<br />
'''EMIC wave generation, propagation, and interactions''': 3:30-5:00, Monday, June 18 (discussion leaders: Alexander Drozdov and Maria Usanova)<br />
[https://drive.google.com/open?id=15rjO2UxK8sqdOfHXunDSLv5q-z51vwuD Session Summary]<br />
<br />
*1. Dedong Wang -- EMIC wave observations from Van Allen Probes and MMS<br />
<br />
*2. Mark Engebretson -- [https://drive.google.com/file/d/1jkhN45ezaeQyeAA7HmVuYOF_izjAMYra/view?usp=sharing Van Allen Probes, and ground based magnetometer observations of EMIC waves associated with a modest interplanetary shock]<br />
<br />
*3. Maria Usanova -- MMS Observations of Harmonic Electromagnetic Cyclotron Waves<br />
<br />
*4. Naritoshi Kitamura -- Direct measurements of energy transfer from hot H+ to EMIC waves by MMS<br />
<br />
*5. Bruce Fritz -- ELF Whistler Dependence on a Sunlit Ionosphere<br />
<br />
*6. Chae-Woo Jun -- EMIC waves associated with/without the injection inside/outside the plasmapause<br />
<br />
*7. Hyomin Kim -- Injection-associated EMIC waves<br />
<br />
*8. Sebastian Cervantes -- EMIC wave parameterization in radiation belt reanalysis<br />
<br />
*9. Maria Usanova -- Long-term correlation of EMIC wave activity and radiation belt flux variations<br />
<br />
*10. Alexander Drozdov -- The effects due to the EMIC waves in the VERB code modeling<br />
<br />
<br />
'''ULF wave modeling challenge, joint with MMV FG''': 3:30-5:00, Wednesday, June 20<br />
<br />
*1. Brief ULF wave poster overviews (Thursday posters)<br />
<br />
*2. Mike Hartinger: [https://drive.google.com/file/d/1g2cL_qaDbASLH5DoJ_auJKQCbG96sdQn/view?usp=sharing ULF wave modeling challenge event overview, discussion of challenge targets (continuing during session)]<br />
<br />
*3. Mariko Teramoto: ARASE ULF wave observations during challenge event<br />
<br />
*4. Sam Califf: [https://drive.google.com/file/d/1CvbVG2Dp8e6RokJE0501L8-LU9ipdUFT/view?usp=sharing GOES-14 and 16 observations during the ULF wave challenge event, Data Discussion]<br />
<br />
*5. Toshi Nishimura: [https://drive.google.com/file/d/1cavbwNU4LoAigIsGvGF_UtiTaM97dFtP/view?usp=sharing PFISR measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*6. Dogacan Su Ozturk: [https://drive.google.com/file/d/1MmP3D_4eeJbEVJzUyx8fAtFsG3b0grzy/view?usp=sharing The modeling study of the 27 March 2017 Event] <br />
<br />
*7. Xiaochen Shen: GEM Challenge Event: ULF wave-related electron and proton precipitation/negative dynamic pressure pulse driven EMIC wave<br />
<br />
*8. Tetsuo Motoba: [https://drive.google.com/file/d/1544ngYBXat-zUC1gZqo0lMVUZtYqxUqH/view?usp=sharing Auroral measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*9. Others discuss when their figures/summary plots in event overview pdf are presented…<br />
<br />
== 2018 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2018 mini-GEM] workshop<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF modulation of the aurora, Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
This session focuses on understanding a variety of mechanisms responsible for ULF modulations of the aurora. Eric Donovan will give a 30 minute invited presentation, with the rest of the session open for presentations and discussion on this topic. We welcome discussion of ULF aurora generation mechanisms and the types of conjunctions, observations, and models needed to understand the zoo of ULF auroral modulations. We also welcome discussion of upcoming observation campaigns/satellite conjunctions that would be particularly useful for ULF wave studies.<br />
<br />
*1. Eric Donovan<br />
*2. Tetsuo Motoba<br />
*3. Slava Pilipenko<br />
*4. Boyi Wang / Toshi Nishimura<br />
*5. Open discussion<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF wave modeling challenge and research highlights'''<br />
The first part of the session is for updates on the idealized ULF wave modeling challenge and potential 2019 GEM sessions. The next part of the session is for observation/model presentations relevant to the 27-28 May 2017 ULF wave challenge event and final selection of the modeling challenge targets – all types of models and observations welcome. The last part of the session will be open for 1 slide ULF wave modeling and observation research highlights. <br />
<br />
*1. [https://drive.google.com/file/d/1vqxxn3gYXfzDKABe9yRwMgR8vbKRua_j/view?usp=sharing 2019 GEM session ideas] (Mike Hartinger)<br />
*2. Idealized Modeling Challenge (Lutz Rastaetter)<br />
*3. ULF wave modeling challenge event updates: Rob Redmon/Sam Califf/Mike Hartinger (GOES magnetometer observations), Yoshi Miyoshi (Arase magnetic field observations), [https://drive.google.com/file/d/1B6DGHvAzUhBG79eUJWPsUD2BSjGhQrrw/view?usp=sharing Hyomin Kim (wave-particle interaction)], [https://drive.google.com/file/d/180iaBGrbCPf1rYy6uVZn8OsLTOFREqsD/view?usp=sharing Dong Lin (LFM simulations)]<br />
*4. General ULF wave modeling: [https://drive.google.com/file/d/10gUKitjDPnbV_g9r9CAHDFeE365wUQQd/view?usp=sharing Yaireska Collado-Vega (vortex identification/surface waves)], [https://drive.google.com/file/d/1kkGlYKoYHr7XZf5nT3kaXITUD3tpNynJ/view?usp=sharing Alex Degeling (ULF wave radiation belt interactions)] <br />
*5. Research highlights (1-slide): Rualdo Soto (Van Allen Probes and Cluster satellites’ observations of Pc 5 (mHz) magnetic pulsations), [https://drive.google.com/file/d/1V_Joz3psBQbCBoVKRYaOKdKIEoZ72WgQ/view?usp=sharing Xueling Shi (SuperDARN ULF waves)], Martin Archer (magnetopause surface eigenmodes), [https://drive.google.com/file/d/1Mmi3VfERKswG3dpYidVUgOQra2UG-9s2/view?usp=sharing Martin Archer (sonification)]<br />
<br />
== 2019 GEM meeting schedule ==<br />
<br />
UMEA will hold [https://drive.google.com/file/d/1KmH9XqxrisGH_g4s0ny7QDkutmv7tKlr/view?usp=sharing six sessions] at the 2019 GEM meeting, four joint with other focus groups. <br />
<br />
'''Recent advances in ULF wave research: Modeling''': 3:30-5:00, Monday, June 24 New Mexico room, joint with MMV. <br />
Discussion of advances in ULF wave research, with focus on modeling and modeling challenges (e.g., boundary conditions, grid resolution, missing physics). This includes models of the effects of ULF waves on inner magnetosphere dynamics and wave-particle interactions. We particularly encourage presentations focused on the ULF wave modeling challenge, including data-model comparisons for the 27-28 May 2017 challenge event.<br />
*Mike Hartinger, [https://drive.google.com/open?id=1Drkq9epsQWY4AjpV1EF-8Ci_kaKyN2jk FG updates]<br />
*Jesper Gjerloev, SuperMAG ULF updates<br />
*Tetsuo Motoba, High-time resolution SuperMAG ULF data products<br />
*Lutz Rastaetter, ULF wave modeling challenge<br />
*Maulik Patel, MHD test particle simulations of the 16 July 2017 shock compression of the dayside magnetopause <br />
*Bob McPherron, Pi 2 pulsations during the storm of May 27-29 2017, The Statistics of Pi 2 Pulsation Occurrence during a Major Magnetic Storm<br />
*Dong Lin, LFM simulations of surface waves during challenge event<br />
<br />
'''The ULF response to dayside transients with different temporal/spatial scales''': 10:30-12:00, Wednesday, June 26 Santa Fe room, discussion leader: Tom Elsden, joint with Dayside Kinetics and IHMIC. <br />
Dayside transient phenomena associated with kinetic scale processes cause a variety of ULF wave behaviour in the magnetosphere and further, contribute to significant magnetospheric asymmetries. The aim of this session is to bring together the expertise of the three focus groups listed above, to answer outstanding questions at the overlap of these disciplines. It is hoped that such a discussion should prove fruitful enough to generate a JGR commentary paper in this area. With this in mind, speakers in this session are encouraged to give their views as to the current state of the subject area, and how outstanding problems may be addressed in the future.<br />
* Tom Elsden - Session introduction and goals<br />
* Ferdinand Plaschke (invited) - An overview of dayside transients causing ULF waves<br />
* Tom Elsden - 3D ULF wave modeling with MHD<br />
* Boyi Wang - The role of magnetosheath high-speed jets in triggering magnetospheric Pc5 ULF waves<br />
* Bob Lysak - Ionospheric asymmetries and quarter-wave modes<br />
* Xueling Shi - Conjugate Observations of ULF Waves during an Extended Period of Radial IMF<br />
* Michael Hartinger - Localized magnetopause surface wave activity and [https://drive.google.com/open?id=1d8lDB-FPGa6VErL37aZz3xZSgpNvxbk0 modeling challenges]<br />
* Discussion<br />
<br />
'''ULF wave modeling challenges associated with Magnetosphere-Ionosphere-Thermosphere Coupling''': 3:30-5:00, Wednesday, June 26 Lumpkins Ballroon South, joint with IEMIT, discussion leader Doga Ozturk. <br />
ULF waves play important roles in M-I-T coupling, driving current systems that can lead to I-T system heating and geomagnetically induced currents. This session aims to bring together researchers from the ULF wave and M-I-T coupling research communities to discuss challenges associated with realistically modeling M-I-T coupling processes associated with these waves. The session will begin with a discussion of the ULF wave challenge event; comparisons between modeled / observed (PFISR) conductivities and modeled/observed ULF wave properties will be presented, and the community will be invited to discuss explanations for model/observation differences. The rest of the session is open for short presentations on ULF wave modeling challenges related to M-I-T coupling, including topics such as specifying conductivity and effect of conductivity on wave properties, effect of ionospheric boundary conditions in global simulations, boundary conditions and feedback between magnetosphere and ionosphere, capturing role of waves in ionospheric-thermospheric heating.<br />
# (Invited) Boyi Wang: Ionospheric modulation by Pc5 ULF waves and wave structure detected by PFISR<br />
# (Invited) Xiaojia Zhang / Anton Artemyev: ULF modulation of VLF waves and precipitation<br />
# Doga Ozturk: Update from GEM/CEDAR joint session, [https://drive.google.com/open?id=1WsSf4PFHiBo_iZ3za-bhUWKHFJd4MNQX ULF Wave activity and Meso-Scale electric field variability at high-latitude I-T system]<br />
# Anatoly Streltsov: ULF waves generated by the MI interactions near the plasmapause<br />
# Mergen Alimaganbetov: ULF waves observed in space and on the ground at high and low latitudes<br />
# Mark Engebretson: [https://drive.google.com/open?id=16WbDl3rnuehoifUqFj4oMw_Tn5WhEFlU Multi-Instrument Observations of Nighttime Impulsive Magnetic Events]<br />
# Bob Lysak: Modeling ionospheric conductance and ground magnetic fields<br />
# Yan Song: ULF wave, M-I coupling and Auroral formation.<br />
<br />
[https://drive.google.com/open?id=1wGpZPk086Zs54uWGtYiRjByPmVCFnsSv '''EMIC waves''']: 10:30-12:00, Thursday, June 27 New Mexico room, joint with Radiation Belt. <br />
The generation mechanisms of Electromagnetic Ion Cyclotron (EMIC) waves, their effects on energetic electrons and ions, and their propagation through the magnetosphere-ionosphere system are challenging topics that involve multiple GEM research areas. Despite several years of observations and improved global wave statistics, there are many unresolved questions that limit further investigation, modeling and prediction of dynamical processes in the inner magnetosphere involving EMIC waves. Hence, we invite short presentations that discuss recent findings in different areas of EMIC wave research and identify observations/models most needed to address unresolved questions.<br />
*Robert Allen, Outer magnetospheric EMIC wave source regions characterized by Cluster<br />
*Sarah Vines, EMIC waves in the outer magnetosphere: Observations of an off-equator source region<br />
*Justin Lee, [https://drive.google.com/open?id=1xlJfppvWgOC_JHy6QgPpptcI3GjkYuLC EMIC wave observations by MMS] <br />
*Chao Yue, The relationship between EMIC wave properties and proton distributions based on Van Allen Probes observations<br />
*Kristine Sigsbee, Simultaneous EMIC Wave Observations During a Van Allen Probes Conjunction<br />
*Hyomin Kim, [https://drive.google.com/open?id=1UmmYHxyIcH2FfQmRnffGNnCUNjH8S5qQ Observations of Particle Loss due to Injection-Associated EMIC Waves]<br />
*Yuri Shprits, Dips in PSD and how they are related to EMIC wave scattering<br />
*Richard Denton, Electromagnetic ion cyclotron waves in the dipole magnetosphere and pitch angle scattering of sub-MeV relativistic electrons by those waves<br />
*Qianli Ma, Pitch angle scattering of radiation belt electrons due to statistical EMIC wave spectra <br />
<br />
'''Recent advances in ULF wave research: Observations and HGSO coordination for ULF wave studies''': 1:30-3:00, Thursday, June 27 New Mexico room. <br />
Discussion of recent advances in ULF wave research, with focus on observations and a general discussion of Heliophysics/Geospace System Observatory coordination for ULF wave studies. We particularly encourage presentations describing (1) past or upcoming satellite conjunctions, (2) new data analysis tools, and/or (3) instrumentation/operation modes of interest to the ULF wave research community.<br />
*Seth Claudepierre/Matina Gkioulidou (invited), [https://drive.google.com/open?id=1bjENFjvkWSjLYA_EfFuTxhCyKtVlk7c1 Van Allen Probes: End of Mission and ULF wave studies]<br />
*Tetsuo Motoba, SuperMAG ULF wave tools<br />
*Sarah Vines, Determining EMIC wave vector properties through multi-point measurements: The wave curl analysis<br />
*Aaron Breneman, [https://drive.google.com/open?id=1NHlf9I_VV6vkx9id_NL4gE6YhEsSRxkG BARREL precipitation during solar wind driven ULF wave events] <br />
*Anatoly Streltsov, Effect of the Hall conductivity on generation of ULF waves<br />
*Mohammad Barani, [https://drive.google.com/open?id=1sCMVi0pbWsggpUUnotdl-4LO_hfGGFEc Estimating the Azimuthal Mode Structure of ULF Waves Based on Multiple GOES Satellite Observations]<br />
*Kazue Takahashi, L versus time structures of ground magnetic pulsations<br />
*Chih-Ping Wang, Earthward propagation of Pi2 waves<br />
<br />
'''ULF waves driven by wave-particle interactions and instabilities''': 3:30-5:00, Thursday, June 27 Lumpkins Ballroon South, discussion leaders: Xueling Shi and Hyomin Kim. <br />
Many ULF wave modes are closely related to instabilities and wave-particle interactions inside the magnetosphere: poloidal mode waves associated with particle injections, mirror/drift-mirror modes, buoyancy waves… These waves are often discussed in different contexts and in different GEM sessions. In addition, there have been relatively few studies of modeling internally generated ULF waves. The purpose of this session is to bring together modelers and observers to discuss the underlying processes that drive/damp these waves, their impact(s) on the M-I system (ring current, radiation belt, ionosphere,…), and the models/observations needed to better understand wave dynamics.<br />
*Xuzhi Zhou (invited), Acceleration of relativistic electrons by global-scale ULF waves<br />
*Tomotsugu Yamakawa (invited), [https://drive.google.com/open?id=1PEsq7oWVeXwwXn3JvE5ZvWQIIjfXwKRB Simulation of the excitation of storm-time Pc5 ULF waves by ring current ions based on the drift-kinetic model]<br />
*Frank Toffoletto, Normal Mode Analysis of Buoyancy Waves <br />
*Peter Chi, Observations of High-m Poloidal Waves along Magnetospheric Field Lines<br />
*Mike Hartinger, [https://drive.google.com/open?id=17do2Jxy01SJPmOloBxzTPID9ZzqaPGZI Observations of wave-particle interactions using MagEIS ultra-high resolution energy channels]<br />
*Jiang Liu, Ultralow Frequency Waves Deep Inside the Inner Magnetosphere Driven by Dipolarizing Flux Bundles, and their interaction with electrons<br />
*Kyle Murphy, TBD<br />
<br />
== 2019 Mini-GEM schedule ==<br />
UMEA will hold one session at the [https://gemworkshop.org/ 2019 mini-GEM] workshop<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 8, 2019, Nevada Room<br />
<br />
'''ULF wave modeling challenge event, HGSO coordination, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge and potential 2020 GEM sessions. The next part of the session is open for ULF wave research presentations discussing the ULF wave modeling challenge event or current/upcoming observation campaigns that are particularly useful for ULF wave studies. The last part of the session will be open for 1 slide ULF wave research highlights.<br />
<br />
*Mike Hartinger, [https://drive.google.com/open?id=1eQQc07g7nCTEGNwaTGesQx4ymIU6m815 UMEA updates and proposed sessions for 2020 GEM workshop]<br />
*Dong Lin, [https://drive.google.com/open?id=1SqiD1u69eyKNzLyrtvTWbMK05L5OrkrO LFM Simulations of ULF wave modeling challenge event]<br />
*Mohammad Barani, [https://drive.google.com/open?id=1fQAossqjQ-aBuGIBhDIW6I0_WEtHdQsF High-fidelity ULF wave azimuthal mode number structure estimation using MMS magnetometer observations], [https://www.youtube.com/watch?reload=9&v=W5Vya8pCjNE&t=1s link to related presentation on YouTube]<br />
*Chih-Ping Wang, [https://drive.google.com/open?id=19ugyLwyIp4YRuLpDuzT330IdbbFppQcr Inward propagation of Pi2 wave from plasma sheet to inner magnetosphere: THEMIS-GOES conjunctions]<br />
*Walk-ins<br />
<br />
== 2020 VGEM schedule ==<br />
UMEA will hold two sessions at the [https://gemworkshop.org/ 2020 Virtual GEM] workshop<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave modeling challenge event'''<br />
(Hosted by Xueling Shi)<br />
The first part of the session is for updates on research related to the challenge event (27-29 May 2017 storm): All modeling and observation talks welcome as long as they're related to this event. The last part of the session will be for short research highlights and oral summaries of posters.<br />
<br />
*Mike Hartinger (10 minutes), [https://drive.google.com/file/d/1Z5-g7-f-iKfpuWD03WVkA3Q2Rb9mbQfe/view?usp=sharing 2020 UMEA updates and overview of challenge event] <br />
*Simone Di Matteo (15 minutes), [https://drive.google.com/file/d/1acsSyIszg95muYurOkn0RmW0btblS3Ja/view?usp=sharing On some features characterizing the plasmasphere–magnetosphere–ionosphere system during the geomagnetic storm of 27 May 2017] <br />
*Bob McPherron (15 minutes), [https://drive.google.com/file/d/1pnqs49KamZF2BLgMdaoOroktmkBNnj1c/view?usp=sharing ULF wave activity at synchronous orbit during the May 27-29, 2017 Magnetic storm]<br />
*Boyi Wang (15 minutes), Ionospheric modulation by storm-time Pc5 ULF waves and wave structure detected by PFISR-THEMIS conjunctions<br />
*Lutz Rastaetter (15 minutes), [https://drive.google.com/file/d/1H9nTOrpQHX0NEau1eSktWjWM0KYbyfnM/view?usp=sharing Idealized ULF wave modeling challenge: high-resolution runs] <br />
*Mark Engebretson (5 minutes), [https://drive.google.com/file/d/1kvWyYe52OkTB7uUmKWRDSO305Jina-Yy/view?usp=sharing Nighttime magnetic perturbation events observed in Arctic Canada: Superposed epoch analysis]<br />
*Jinxing Li (5 minutes), Electron microinjections in association with compressional ULF waves: MMS observations<br />
*Xiaojia Zhang (5 minutes), [https://drive.google.com/file/d/1fKwf0t1ohDZIxF5NPtsgGKNP0cBEqECn/view?usp=sharing Spreading of Magnetopause-Generated Ultra-Low-Frequency Perturbations and the Associated Whistler Modulation] <br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave research highlights'''<br />
These will be contributed talks with priority given to graduate students and postdocs. The rationale is that virtual GEM will not provide the same type of networking opportunities as in-person GEM, and we'd like to balance this somewhat by giving more opportunities to students/postdocs to present their work on ULF waves.<br />
<br />
All presentations are 10 minutes including discussion:<br />
*Rachel Rice, Characteristics of Kelvin-Helmholtz Waves as Observed by MMS<br />
*Dong Lin, Idealized ULF wave simulations with GAMERA-RCM model<br />
*Boyi Wang, The interaction between ions and the ULF waves driven by a foreshock transient<br />
*Jayashree Bulusu, [https://drive.google.com/file/d/1YyRAo0I7Cf4-buxhTBXLxYaTWw7GX6SZ/view?usp=sharing Investigation of Pi2s during super quiet conditions from low and mid-latitudes]<br />
*Changzhi Zhai, High-m Poloidal ULF Wave Signatures in GPS TEC Data<br />
*Simone Di Matteo, [https://drive.google.com/file/d/1yYaidiu7O4a0Z8PeQXELiyatB03hJQyX/view?usp=sharing Power Spectral Density Background Estimate and Signal Detection via the Multitaper Method] <br />
*Yixin Hao, [https://drive.google.com/file/d/1iIf5QpLE9t7IThiIPNwhCoRHrbFDoR8R/view?usp=sharing Simultaneous observations of localized and global drift resonance]<br />
*Mohammad Barani, [https://drive.google.com/file/d/1it2y8JXJzrbjmt56MWia7ffbei63gIwC/view?usp=sharing Effects of realistic mode number structure on radial diffusion estimation]<br />
<br />
== 2021 Virtual Mini-GEM schedule ==<br />
UMEA will hold one session at the Virtual Mini-GEM Worskhop.<br />
<br />
'''Time''': 12:00-14:00 US Eastern Time, Friday, January 22, 2021<br />
<br />
'''ULF wave modeling challenge event, planning for 2021 GEM meeting, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge event, including an invited talk by Naoko Takahashi. The next part of the session will be for open discussion on potential 2021 GEM sessions. The final part of the session will be open for ULF wave research highlights. <br />
*Mike Hartinger, Brief Introduction to Challenge event<br />
*Naoko Takahashi, Relative contribution of ULF waves and whistler-mode chorus to the radiation belt variation during May 2017 storm<br />
*Ian Kelley, GPS TEC response during the ULF wave challenge event<br />
*Mike Hartinger, ULF wave geoelectric fields during the challenge event<br />
*All, Planning for 2021 GEM sessions<br />
*Bob Lysak, FLRs in Jupiter's magnetosphere<br />
*Toshi Nishimura, Upcoming conjunctions for ULF wave studies<br />
*Toshi Nishimura, PFISR and all-sky imager observations of Pc5 ULF waves during substorms<br />
*Francesco Lena, Detection of Hertz Frequency Multiharmonic Field Line Resonances at Low-L (L=1.1–1.5) During Van Allen Probe Perigee Passes<br />
<br />
== 2021 VGEM schedule ==<br />
UMEA will lead four sessions at the [https://gemworkshop.org/ 2021 Virtual GEM] workshop.<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''Recent Advances in ULF Wave Research'''<br />
This session will start with a short update on the ULF wave modeling challenge. The rest of the session will be for recent advances in ULF wave research, with priority given to presentations (1) with data or modeling results related to the challenge event (27-28 May 2017) or (2) discussions of ULF wave data-model comparisons.<br />
<br />
*Michelle Salzano, IPDP-Pi1B - modeling drift shell splitting<br />
*Aditi Upadhyay, Occurrence Characteristics of Electromagnetic Ion Cyclotron Waves at the Indian Antactrtic Station, Maitri<br />
*Yangyang Shen, Tens to hundreds of keV electron precipitation driven by kinetic Alfven waves during an electron injection<br />
*Chih-Ping Wang, Statistical results for Pi2 waves associated with the plasma sheet BBFs observed by THEMIS-RBSP pair with RBSP inside or outside the plasmasphere<br />
*Tom Elsden, Modelling the Varying Location of Field Line Resonances During Geomagnetic Storms<br />
*Denny Oliveira, Factors controlling shock-induced magnetospheric ULF waves<br />
*Short Oral Summaries of Posters<br />
*Open Discussion<br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''The Future of ULF Wave Research''', Hosted by Ayomide Olabode<br />
This session will begin with a review of the ULF wave FG’s original goals, research topics covered in the last 5 years and related activities, and unresolved questions and research objectives. The remainder of the session is open for 1-2 slide presentations on major unresolved questions in ULF wave research. We particularly encourage presentations (1) exploring topics that could be addressed by current/future GEM FG or decadal survey white paper, (2) highlighting major questions or obstacles preventing progress in ULF wave research (e.g., missing data in a critical region, missing theory/modeling component), (3) discuss how ULF wave researchers can best take advantage of future satellite missions, ground-based infrastructure, computing advances/big data/AI, and modeling/theory advances. <br />
<br />
*Mike Hartinger, Retrospective on the ULF wave focus group<br />
*Martin Archer, Surface Waves<br />
*Tom Elsden, 3D FLRs<br />
*Alexander Drozdov, Radial Diffusion<br />
*Ayomide Olabode and Michelle Salzano, Ground Magnetic Perturbations<br />
*Mark Engebretson, Pc1 waves / MMS k-vector technique<br />
*Xueling Shi, Applications of TEC observations<br />
*Open discussion, walk-in presentations welcome<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Tuesday, July 27, 2021<br />
<br />
'''ULF Wave M-I Coupling Processes'''<br />
This session is joint with the IEMIT FG. The session will begin with a review of the role of ULF waves on M-I coupling. The remainder of the session is open for 5-min presentations on ULF wave topics related to M-I coupling, e.g., auroral acceleration, particle precipitation, geomagnetic perturbations, GICs, etc. More questions and discussions will be left to the end.<br />
<br />
*Hui Zhang, Role of ULF waves in M-I coupling<br />
*Chaosong Huang, Global Pc5 pulsations<br />
*Tetsuo Motoba, Daytime Pc5 Diffuse Auroral Pulsations and Their Association With Outer Magnetospheric ULF Waves<br />
*Anton Artemyev, ULF driven precipitations as observed by ELFIN<br />
*Mark Engebretson, Magnetic perturbation events related to GICs<br />
*Denny Oliveira, IP shock impact angle control of local intense dB/dt variations during substorm<br />
*Xueling Shi, Sources of Intense Geoelectric Fields in the United States<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Friday, July 30, 2021<br />
<br />
'''Coupling Between ULF Waves and Cold Plasma''', Hosted by Rachel Rice<br />
This session is joint with the Cold Plasma FG. The session will begin with a review of mechanisms that couple cold plasma populations to ULF waves by Richard Denton. The remainder of the session is for contributed presentations describing (1) recent advances in our understanding of cold plasma interactions with ULF waves and (2) outstanding questions that could be discussed in future cold plasma FG sessions.<br />
<br />
*Richard Denton, Coupling Between ULF Waves and Cold Plasma<br />
*Alex Degeling, Modeling ULF Waves Trapped in a Plasmaspheric Density Plume <br />
*Eun Hwa Kim, Can Electromagnetic Ion Cyclotron Waves Propagate to the Ground?: 2D Full Wave Simulation<br />
*Bob Lysak, Relation of plasmaspheric cavity modes to Pi2 pulsations in an asymmetric plasmasphere<br />
*Yixin Hao, ULF wave-cold plasma interaction<br />
*Mike Hartinger, The relationship between global ULF wave properties and radial Alfven speed profile</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=FG:_ULF_Wave_Modeling,_Effects,_and_Applications&diff=5387FG: ULF Wave Modeling, Effects, and Applications2021-07-26T14:03:40Z<p>Mdhartin: /* 2021 VGEM schedule */</p>
<hr />
<div>''Focus Group Leaders:''<br />
* Michael Hartinger, Space Science Institute (mhartinger@spacescience.org)<br />
* Kazue Takahashi, Applied Physics Laboratory<br />
* Alexander Drozdov, UCLA<br />
* Maria Usanova, University of Colorado<br />
* Brian Kress, University of Colorado and NOAA-NCEI<br />
* Xueling Shi, Virginia Tech<br />
<br />
Focus Group term: 2016-2021<br />
<br />
Join the discussion on [https://gemworkshop.slack.com/archives/C016U8PA7TJ Slack], including discussion related to the 2020 GEM and 2021 miniGEM meetings.<br />
<br />
== Science Questions ==<br />
Our group aims to address the following broad science questions: What mechanisms excite ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in Magnetosphere-Ionosphere coupling?<br />
<br />
== Focus Group Proposal ==<br />
[http://gem.epss.ucla.edu/mediawiki/FGproposals/Hartinger-UMEA.pdf ULF Wave Modeling, Effects, and Applications (UMEA)] (December 2015)<br />
<br />
== ULF wave modeling challenge ==<br />
<br />
One part of the ULF wave modeling challenge involves running several global MHD simulation codes with identical, idealized solar wind driving conditions (sinusoidal density variation), then comparing the resulting global ULF wave properties and discussing differences in the context of differing boundary conditions, grids, etc. More details can be found here: [http://ccmc.gsfc.nasa.gov/challenges/ULF/ ULF wave modeling challenge at CCMC]<br />
<br />
Another part of the ULF wave modeling challenge involves data-model comparisons during specific events. At the 2017 GEM and mini-GEM meetings several [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing challenge events] were proposed, including two [https://drive.google.com/open?id=1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI 2017 events].<br />
<br />
We have selected the [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing 27-28 May 2017 storm event] for the ULF wave modeling challenge due to favorable solar wind coverage and availability of numerous satellites (MMS, ARASE, THEMIS, RBSP, Cluster, GOES, ...) and ground-based observations for global context and multi-point wave observations. We will be continuously updating this [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing overview presentation] with observation and modeling results. Model output and observations for the challenge event - including global densities from the NURD model - can be obtained [https://drive.google.com/drive/folders/1Bk9vJtbEHd-vSuYqr3UG9NGCqaBn69hw?usp=sharing here]. If you would like to add additional observations/model output to the google drive or overview pdf, please contact the co-chairs.<br />
<br />
CCMC has run several global MHD simulation codes using the driving conditions of the ULF wave challenge event. At the 2019 GEM meeting and future GEM/mini-GEM meetings, we plan data-model comparisons to identify where model/data don't agree and discuss these differences in the context of incorrect boundary conditions (e.g., compare model ionosphere to local PFISR-derived conductivities), missing physics, numerical dissipation, etc. Please contact CCMC/Lutz Rastaetter and model developers before using this simulation output in publications:<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_SWMF_040319_1 Space Weather Modeling Framework simulation], IMF Bx=0 (other parameters as in event). Full 2-day event, 3D output every 15s, virtual ground magnetometer. If you haven't used CCMC visualization tools before, be aware that you shouldn’t submit multiple visualization requests at the same time, as this could crash CCMC server for these large 3D files. Instead, request a batch process or wait for the first visualization request to complete. The easiest/fastest visualization is to follow the link above and scroll down until you see the virtual ground magnetometer and satellites list. Click on the magnetometer/satellite of interest, then select which parameter(s) to display/download. <br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_1 OpenGGCM run 1] – IMF Bx = -7 nT. Smaller time range available on 28 May 0400-1000, only virtual ground magnetometer from POKR/CMO available now. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_1 Full results including virtual satellite.]<br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_2 Open GGCM run 2] – IMF Bx = 0 nT (as in SWMF simulation). Same format as other OpenGGCM simulation. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_2 Full results including virtual satellite.]<br />
<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_LFM_051519_2 LFM simulation]<br />
<br />
== ULF wave HGSO event coordination ==<br />
Our group is helping coordinate analysis of conjunction events for ULF wave studies, including requesting instrument operation modes favorable for ULF wave analysis.<br />
<br />
The [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] 0400-0800 UT conjunction event includes several satellites (THEMIS, Cluster, Van Allen Probes, GOES, Geotail, FIREBIRD, METOP, POES, DMSP) in the pre-midnight sector during a conjunction with the Poker Flat Incoherent Scatter Radar and several SuperDARN radars. PFISR was operating throughout the conjunction, several SuperDARN radars were in high resolution sampling modes, and several satellites were operating in fast survey/burst mode. The conjunction is favorable for modeling and observation studies of magnetosphere-ionosphere coupling via ULF waves, wave-particle interactions, global ULF wave properties, and many other topics. [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing This pdf] summarizes preliminary results<br />
<br />
Several web-based tools are available for identifying future conjunctions, including [https://ergsc.isee.nagoya-u.ac.jp/analysis/index.shtml.en upcoming conjunctions between ARASE and Van Allen Probes/ground] and conjunctions between [https://swarm-aurora.com/conjunctionFinder/ SWARM/all-sky cameras].<br />
<br />
'''There are also many specialized, web-based tools for ULF wave analysis (please contact FG co-chairs to add to this list):'''<br />
<br />
*SuperMAG ground-based magnetometer [http://supermag.jhuapl.edu/rBrowse/?start=2001-01-30T05%3A00%3A00.000Z&step=14400 global ULF wave plots]<br />
<br />
*CARISMA ground-based magnetometer [http://www.carisma.ca/carisma-data/fgm-pc1-power-spectra Pc1 power spectra] and [http://www.carisma.ca/carisma-data/fgm-pc5-power-spectra Pc5 power spectra]<br />
<br />
*Augsburg College/UNH Arctic and Antarctic [http://space.augsburg.edu/searchcoil/index.html search coil magnetometer survey plots] <br />
<br />
*Augsburg College (hosted by ViRBO) [http://virbo.org/Augsburg/ULF ULF wave index]<br />
<br />
*[http://vt.superdarn.org/tiki-index.php?page=DaViT+DynFFT SuperDARN wave analysis] and [http://vt.superdarn.org/tiki-index.php?page=Data+Inventory identification of high time-resolution SuperDARN beams]<br />
<br />
*THEMIS satellite fluxgate magnetometer [http://themis.ssl.berkeley.edu/summary.php?year=2014&month=05&day=11&hour=0024&sumType=thmfgmdyn&type=themislinfgl wave survey plots]<br />
<br />
*National Institute of Polar Research inter-hemispheric comparisons of Syowa/Iceland [http://iugonet0.nipr.ac.jp/web/induction/ induction magnetometer spectra]<br />
<br />
*[http://mist.nianet.org/Satellite_Conjunctions/ Inter-hemispheric comparisons] during satellite conjunctions with Arctic(DTU Space)/Antarctic(Virginia Tech) magnetometers<br />
<br />
*[http://kho.unis.no/uaf_msp.htm Meridian Scanning Photometer plots] from [http://kho.unis.no/ UNIS/Kjell Henriksen Observatory], for context on open-closed boundary and ULF modulation of the aurora<br />
<br />
== Summary Reports for GEM workshops ==<br />
[https://drive.google.com/file/d/1QLH8FcKm3-f25aLwoetOuYJGZu5sPgN3/view?usp=sharing 2016 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1SRIv6Gn-NNnqGPHGvjvZQcdDml2GQpv_/view?usp=sharing 2017 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1clzFHWrxC9hvYf9kECJx4bPn9xn8WwsG/view?usp=sharing 2018 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1_fLwZFCLBTBHnq8HkaFPWUvaIY81E-t0/view?usp=sharing 2019 UMEA FG report]<br />
<br />
== 2016 Mini-GEM schedule ==<br />
UMEA will hold one session at the [http://www.cpe.vt.edu/gem-mini/ mini-GEM workshop]: ULF wave modeling, effects and applications updates<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 11, 2016<br />
<br />
'''Location''': Oregon Room, Holiday Inn Golden Gateway<br />
<br />
'''Schedule:'''<br />
<br />
'''First Half (12:00 – 12:45): 3 talks (~15 min each):'''<br />
<br />
*1. Mike Hartinger -- [http://gem.epss.ucla.edu/mediawikiwiki/images/7/7c/UMEAoverview_miniGEM2016.pdf Overview of UMEA current activities, discussion of future plans]<br />
<br />
*2. Lutz Rastaetter -- ULF wave modeling challenge at CCMC<br />
<br />
*3. Robert Rankin -- Modeling the global properties and ground-based signatures of ULF waves and wave-particle interactions<br />
<br />
'''Second Half (12:45 – 13:30): (5 minutes each, 1-2 slides, order of talks may change):'''<br />
<br />
*1. Xueling Shi -- SuperDARN THEMIS Mode Data Tracker & ULF Wave Detection<br />
<br />
*2. Richard Denton -- Mass density inferred from Alfven wave frequencies measured by RBSP<br />
<br />
*3. Lars Daldorff -- ULF waves, particle transport and energization in global MHD simulations with plasmasphere<br />
<br />
*4. Alexander Drozdov -- Dependence of radiation belt simulations to assumed radial diffusion rates tested for two empirical models of radial transport<br />
<br />
*5. Bob Lysak -- Quarter Wavelength Modes<br />
<br />
*6. Walk-ins<br />
<br />
== 2017 GEM meeting schedule ==<br />
UMEA will hold four sessions session at the 2017 GEM meeting<br />
<br />
'''UMEA Update and plans, general discussion of ULF wave modeling and observations''': 10:30-12:15, Monday, June 19, Port VI-VIII<br />
<br />
*1. Michael Hartinger -- [https://drive.google.com/file/d/0B57bC_V89WW6dnBCbmFFSkFURUk/view?usp=sharing UMEA update]<br />
<br />
*2. Toshi Nishimura -- PFISR measurements during the 2 May 2017 HGSO event<br />
<br />
*3. Xueling Shi -- [https://drive.google.com/file/d/0B57bC_V89WW6OUcyNGNWM0piWnc/view?usp=sharing A Survey of Ionospheric ULF Wave Signatures in SuperDARN Data: Occurrence Statistics and Driving Mechanisms]<br />
<br />
*4. Tetsuo Motoba -- Dayside Auroral Pulsations<br />
<br />
*5. Brian Kress and Rob Redmon -- Newly Available GOES 8-16 Particle and Magnetic Field Measurements<br />
<br />
*6. Dick Wolf -- Theory of magnetospheric buoyancy waves<br />
<br />
<br />
'''ULF wave interactions with the radiation belt and ring current populations''': 1:30-3:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Rualdo Soto-Chavez -- Generation of Pc5-ULF wave by the drift-mirror instability<br />
<br />
*2. Zhiyang Xia -- [https://drive.google.com/file/d/0B57bC_V89WW6Y1VQRXJKd3Qya3c/view?usp=sharing Eigenmode analysis of compressional poloidal modes in a self-consistent magnetic field]<br />
<br />
*3. Mark Engebretson -- [https://drive.google.com/file/d/0B57bC_V89WW6QlM3LU9lTVVwZ1E/view?usp=sharing Statistical study of the upper frequency cutoff of helium band EMIC waves observed by the Van Allen Probes]<br />
<br />
*4. Alexander Drozdov -- Radial diffusion and EMIC waves in the long-term simulation and in the case study<br />
<br />
*5. Seth Claudepierre -- Global MHD simulations driven by idealized Alfvenic fluctuations in the solar wind<br />
<br />
*6. Michael Hartinger -- Radiation belt response to large scale, monochromatic ULF waves: LANL-GEO observations<br />
<br />
<br />
'''ULF wave modeling, including CCMC modeling challenge, Joint with MMV''': 3:30-5:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Lutz Rastaetter -- CCMC ULF wave modeling challenge update and challenge events<br />
<br />
*2. Scot Elkington -- [https://drive.google.com/file/d/0B57bC_V89WW6WUxJcGNqbUU2bzA/view?usp=sharing ULF wave activity and diffusion coefficients during QARBM challenge events], [https://drive.google.com/file/d/0B3MAHZknMumcem40dTVyNVRFbE0/view?usp=sharing Ashar F. Ali’s write-up on Event-Specific Radial Diffusion Coefficients Derived Using RBSP EMFISIS and EFW Data]<br />
<br />
*3. Katariina Nykyri -- KHI challenge events<br />
<br />
*4. All -- Open Discussion of Challenge Events<br />
<br />
*5. Doga Ozturk -- Effects of Increased Solar Wind Dynamic Pressure on the Coupled M-I system under different IMF By<br />
<br />
*6. Kazue Takahashi -- Cavity mode Van Allen Probe observations<br />
<br />
*7. Bob Lysak -- Cavity mode models<br />
<br />
*8. Tom Elsden -- [https://drive.google.com/file/d/0B57bC_V89WW6SDNnYjdwSVM3Y3c/view?usp=sharing The Theoretical Foundation of 3D Alfven Resonances: Time Dependent Solutions]<br />
<br />
<br />
'''Magnetosphere-Ionosphere coupling processes associated with localized disturbances caused by dayside kinetic phenomena: Joint with “Dayside Kinetic Processes…” and “Testing proposed links…”''': 3:30-5:00, Tuesday, June 20, Port VI-VIII<br />
<br />
*1. Peter Chi -- Magnetospheric and ionospheric responses to a localized disturbance: The macroscopic view<br />
<br />
*2. Hui Zhang -- Magnetospheric ULF waves generated by foreshock transients<br />
<br />
*3. Hui Zhang -- Modeling challenges in simulating HFA geoeffects<br />
<br />
*4. Boyi Wang -- Optical signatures of dayside ULF waves during magnetosheath high-speed jets<br />
<br />
*5. Katariina Nykyri -- The effect of magnetosheath seed spectrum on KH evolution and associated mass transport<br />
<br />
*6. Kyle Murphy -- A statistical study of discrete ULF wave power observed by GOES<br />
<br />
== 2017 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2017 mini-GEM] workshop<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 10, 2017, Canal/50<br />
<br />
'''ULF wave modeling challenges'''<br />
Discussion of final plans for the CCMC ULF wave modeling challenge with idealized drivers, as well as open discussion of new challenges involving data-model and model-model comparisons during [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing specific events]. Please come with 1-2 slides showing examples of such comparisons, ideas for improving ULF wave models, and/or ideas for specific modeling challenges/sessions relevant to the FG science questions.<br />
<br />
*1. 12:00-12:30 Overview of CCMC ULF wave modeling challenge with idealized driving conditions, description of challenge events and targets proposed during 2017 GEM meeting and November modeling telecon (Michael Hartinger, Lutz Rastaetter)<br />
*2. 12:30-13:30 [https://drive.google.com/file/d/1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI/view?usp=sharing Open discussion of challenge events and targets (Allison Jaynes,] Robert Rankin), select challenge event to be analyzed at 2018 GEM<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 10, 2017, Canal/50<br />
<br />
'''Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
Discussion of HGSO coordination for ULF wave studies. This includes updates on the [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] conjunction event followed by an open discussion of conjunctions and datasets that are particularly useful for ULF wave studies, including upcoming RBSP-ERG-ground conjunctions. Please come with 1-2 slides showing examples of datasets and past/upcoming conjunctions ideal for addressing the FG science questions: What excites ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in MI coupling? We welcome discussion from both modelers and observers of the types of conjunctions and observations that are most needed to address these questions.<br />
<br />
*1. 13:50-14:20 Recently available datasets and conjunctions for ULF wave studies (Chih-Ping Wang, Xueling Shi, Sana Qamar, Rob Redmon)<br />
*2. 14:20-14:35 Updates on 2 May 2017 conjunction event (Toshi Nishimura, Michael Hartinger)<br />
*3. 14:35-15:20 Upcoming ARASE-RBSP conjunctions (Yoshi Miyoshi), Open Discussion of HGSO coordination for ULF wave studies (Toshi Nishimura, Kazue Takahashi)<br />
<br />
== 2018 GEM meeting schedule ==<br />
UMEA will hold [https://drive.google.com/file/d/1uh-ZOICfOBzNs9KLe3saFMnY9P-oqV9R/view?usp=sharing four sessions] at the 2018 GEM meeting. <br />
<br />
'''ULF waves during particle injections and dipolarizations, joint with Dipolarization and Substorm FG''': 10:30-12:00, Monday, June 18<br />
<br />
*1. Discussion of Session Topic<br />
<br />
*2. Bob Lysak -- [https://drive.google.com/file/d/1w8o5aGYbLsIEy2YmaoosF3WNeWTuLE59/view?usp=sharing Ionospheric Conductivity Effects on Pi2 Pulsations]<br />
<br />
*3. Mike Hartinger -- [https://drive.google.com/file/d/1tcJgspMQDkhPPvSTng4eZP7h-j7jvVR7/view?usp=sharing Pi2 waves during an extended period with stable plasmapause location and variable geomagnetic activity]<br />
<br />
*4. Toshi Nishimura -- Ionosphere observations of Pc5 ULF waves during 2018 HGSO conjunctions<br />
<br />
*5. Xueling Shi -- Long-lasting poloidal ULF waves observed by multiple satellite and SuperDARN HF radars<br />
<br />
*6. Jian Yang -- New RCM-I simulation results for buoyancy waves<br />
<br />
*7. Dick Wolf -- [https://drive.google.com/file/d/1vTkH_lmgXCcvkAYU6HgO_R5ZgIdGji3O/view?usp=sharing Theory of Buoyancy Waves] <br />
<br />
*8. Yan Song -- What Causes the Substorm Expansion Phase and Associated ULF Waves?<br />
<br />
<br />
'''Recent advances in ULF wave research''': 1:30-3:00, Monday, June 18 <br />
<br />
*1. [https://drive.google.com/file/d/1ms9kDYlBhCnxti8z9o9Lx8y0PPmkWu_-/view?usp=sharing Overview of focus group goals and recent progress]<br />
<br />
*2. Brief ULF wave poster overviews (Tuesday posters)<br />
<br />
*3. Kazue Takahashi -- Observation of nightside ULF waves by RBSP and Arase<br />
<br />
*4. Tom Elsden -- Broadband Excitation of 3D Alfven Resonances (FLRs) in an MHD Waveguide<br />
<br />
*5. Boyi Wang -- 2-D structure of foreshock driven Pc5 ULF waves observed by the THEMIS satellites and South Pole imager<br />
<br />
*6. Xiaochen Shen -- Foreshock transient-driven ultra-low frequency (ULF) waves with dawn-dusk asymmetry of wave power<br />
<br />
*7. Chih-Ping Wang -- ULF waves possibly driven by tailward propagation of foreshock perturbations<br />
<br />
*8. Allison Jaynes -- [https://drive.google.com/file/d/1EC3yPvda8fA0LUr9qTfszluNDLs6LdHT/view?usp=sharing Fast diffusion of ultra-relativistic electrons in the outer radiation belt: 17 March 2015 storm event]<br />
<br />
*9. Rualdo Soto -- The Drift-Mirror instability in Earth's inner magnetosphere<br />
<br />
*10. Martin Archer/Mike Hartinger -- [https://drive.google.com/file/d/1t4fmiiZP9wdJ-40TISEC7BuicEd64m7W/view?usp=sharing Results from Sonification and Citizen Science of Magnetospheric ULF waves]<br />
<br />
<br />
'''EMIC wave generation, propagation, and interactions''': 3:30-5:00, Monday, June 18 (discussion leaders: Alexander Drozdov and Maria Usanova)<br />
[https://drive.google.com/open?id=15rjO2UxK8sqdOfHXunDSLv5q-z51vwuD Session Summary]<br />
<br />
*1. Dedong Wang -- EMIC wave observations from Van Allen Probes and MMS<br />
<br />
*2. Mark Engebretson -- [https://drive.google.com/file/d/1jkhN45ezaeQyeAA7HmVuYOF_izjAMYra/view?usp=sharing Van Allen Probes, and ground based magnetometer observations of EMIC waves associated with a modest interplanetary shock]<br />
<br />
*3. Maria Usanova -- MMS Observations of Harmonic Electromagnetic Cyclotron Waves<br />
<br />
*4. Naritoshi Kitamura -- Direct measurements of energy transfer from hot H+ to EMIC waves by MMS<br />
<br />
*5. Bruce Fritz -- ELF Whistler Dependence on a Sunlit Ionosphere<br />
<br />
*6. Chae-Woo Jun -- EMIC waves associated with/without the injection inside/outside the plasmapause<br />
<br />
*7. Hyomin Kim -- Injection-associated EMIC waves<br />
<br />
*8. Sebastian Cervantes -- EMIC wave parameterization in radiation belt reanalysis<br />
<br />
*9. Maria Usanova -- Long-term correlation of EMIC wave activity and radiation belt flux variations<br />
<br />
*10. Alexander Drozdov -- The effects due to the EMIC waves in the VERB code modeling<br />
<br />
<br />
'''ULF wave modeling challenge, joint with MMV FG''': 3:30-5:00, Wednesday, June 20<br />
<br />
*1. Brief ULF wave poster overviews (Thursday posters)<br />
<br />
*2. Mike Hartinger: [https://drive.google.com/file/d/1g2cL_qaDbASLH5DoJ_auJKQCbG96sdQn/view?usp=sharing ULF wave modeling challenge event overview, discussion of challenge targets (continuing during session)]<br />
<br />
*3. Mariko Teramoto: ARASE ULF wave observations during challenge event<br />
<br />
*4. Sam Califf: [https://drive.google.com/file/d/1CvbVG2Dp8e6RokJE0501L8-LU9ipdUFT/view?usp=sharing GOES-14 and 16 observations during the ULF wave challenge event, Data Discussion]<br />
<br />
*5. Toshi Nishimura: [https://drive.google.com/file/d/1cavbwNU4LoAigIsGvGF_UtiTaM97dFtP/view?usp=sharing PFISR measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*6. Dogacan Su Ozturk: [https://drive.google.com/file/d/1MmP3D_4eeJbEVJzUyx8fAtFsG3b0grzy/view?usp=sharing The modeling study of the 27 March 2017 Event] <br />
<br />
*7. Xiaochen Shen: GEM Challenge Event: ULF wave-related electron and proton precipitation/negative dynamic pressure pulse driven EMIC wave<br />
<br />
*8. Tetsuo Motoba: [https://drive.google.com/file/d/1544ngYBXat-zUC1gZqo0lMVUZtYqxUqH/view?usp=sharing Auroral measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*9. Others discuss when their figures/summary plots in event overview pdf are presented…<br />
<br />
== 2018 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2018 mini-GEM] workshop<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF modulation of the aurora, Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
This session focuses on understanding a variety of mechanisms responsible for ULF modulations of the aurora. Eric Donovan will give a 30 minute invited presentation, with the rest of the session open for presentations and discussion on this topic. We welcome discussion of ULF aurora generation mechanisms and the types of conjunctions, observations, and models needed to understand the zoo of ULF auroral modulations. We also welcome discussion of upcoming observation campaigns/satellite conjunctions that would be particularly useful for ULF wave studies.<br />
<br />
*1. Eric Donovan<br />
*2. Tetsuo Motoba<br />
*3. Slava Pilipenko<br />
*4. Boyi Wang / Toshi Nishimura<br />
*5. Open discussion<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF wave modeling challenge and research highlights'''<br />
The first part of the session is for updates on the idealized ULF wave modeling challenge and potential 2019 GEM sessions. The next part of the session is for observation/model presentations relevant to the 27-28 May 2017 ULF wave challenge event and final selection of the modeling challenge targets – all types of models and observations welcome. The last part of the session will be open for 1 slide ULF wave modeling and observation research highlights. <br />
<br />
*1. [https://drive.google.com/file/d/1vqxxn3gYXfzDKABe9yRwMgR8vbKRua_j/view?usp=sharing 2019 GEM session ideas] (Mike Hartinger)<br />
*2. Idealized Modeling Challenge (Lutz Rastaetter)<br />
*3. ULF wave modeling challenge event updates: Rob Redmon/Sam Califf/Mike Hartinger (GOES magnetometer observations), Yoshi Miyoshi (Arase magnetic field observations), [https://drive.google.com/file/d/1B6DGHvAzUhBG79eUJWPsUD2BSjGhQrrw/view?usp=sharing Hyomin Kim (wave-particle interaction)], [https://drive.google.com/file/d/180iaBGrbCPf1rYy6uVZn8OsLTOFREqsD/view?usp=sharing Dong Lin (LFM simulations)]<br />
*4. General ULF wave modeling: [https://drive.google.com/file/d/10gUKitjDPnbV_g9r9CAHDFeE365wUQQd/view?usp=sharing Yaireska Collado-Vega (vortex identification/surface waves)], [https://drive.google.com/file/d/1kkGlYKoYHr7XZf5nT3kaXITUD3tpNynJ/view?usp=sharing Alex Degeling (ULF wave radiation belt interactions)] <br />
*5. Research highlights (1-slide): Rualdo Soto (Van Allen Probes and Cluster satellites’ observations of Pc 5 (mHz) magnetic pulsations), [https://drive.google.com/file/d/1V_Joz3psBQbCBoVKRYaOKdKIEoZ72WgQ/view?usp=sharing Xueling Shi (SuperDARN ULF waves)], Martin Archer (magnetopause surface eigenmodes), [https://drive.google.com/file/d/1Mmi3VfERKswG3dpYidVUgOQra2UG-9s2/view?usp=sharing Martin Archer (sonification)]<br />
<br />
== 2019 GEM meeting schedule ==<br />
<br />
UMEA will hold [https://drive.google.com/file/d/1KmH9XqxrisGH_g4s0ny7QDkutmv7tKlr/view?usp=sharing six sessions] at the 2019 GEM meeting, four joint with other focus groups. <br />
<br />
'''Recent advances in ULF wave research: Modeling''': 3:30-5:00, Monday, June 24 New Mexico room, joint with MMV. <br />
Discussion of advances in ULF wave research, with focus on modeling and modeling challenges (e.g., boundary conditions, grid resolution, missing physics). This includes models of the effects of ULF waves on inner magnetosphere dynamics and wave-particle interactions. We particularly encourage presentations focused on the ULF wave modeling challenge, including data-model comparisons for the 27-28 May 2017 challenge event.<br />
*Mike Hartinger, [https://drive.google.com/open?id=1Drkq9epsQWY4AjpV1EF-8Ci_kaKyN2jk FG updates]<br />
*Jesper Gjerloev, SuperMAG ULF updates<br />
*Tetsuo Motoba, High-time resolution SuperMAG ULF data products<br />
*Lutz Rastaetter, ULF wave modeling challenge<br />
*Maulik Patel, MHD test particle simulations of the 16 July 2017 shock compression of the dayside magnetopause <br />
*Bob McPherron, Pi 2 pulsations during the storm of May 27-29 2017, The Statistics of Pi 2 Pulsation Occurrence during a Major Magnetic Storm<br />
*Dong Lin, LFM simulations of surface waves during challenge event<br />
<br />
'''The ULF response to dayside transients with different temporal/spatial scales''': 10:30-12:00, Wednesday, June 26 Santa Fe room, discussion leader: Tom Elsden, joint with Dayside Kinetics and IHMIC. <br />
Dayside transient phenomena associated with kinetic scale processes cause a variety of ULF wave behaviour in the magnetosphere and further, contribute to significant magnetospheric asymmetries. The aim of this session is to bring together the expertise of the three focus groups listed above, to answer outstanding questions at the overlap of these disciplines. It is hoped that such a discussion should prove fruitful enough to generate a JGR commentary paper in this area. With this in mind, speakers in this session are encouraged to give their views as to the current state of the subject area, and how outstanding problems may be addressed in the future.<br />
* Tom Elsden - Session introduction and goals<br />
* Ferdinand Plaschke (invited) - An overview of dayside transients causing ULF waves<br />
* Tom Elsden - 3D ULF wave modeling with MHD<br />
* Boyi Wang - The role of magnetosheath high-speed jets in triggering magnetospheric Pc5 ULF waves<br />
* Bob Lysak - Ionospheric asymmetries and quarter-wave modes<br />
* Xueling Shi - Conjugate Observations of ULF Waves during an Extended Period of Radial IMF<br />
* Michael Hartinger - Localized magnetopause surface wave activity and [https://drive.google.com/open?id=1d8lDB-FPGa6VErL37aZz3xZSgpNvxbk0 modeling challenges]<br />
* Discussion<br />
<br />
'''ULF wave modeling challenges associated with Magnetosphere-Ionosphere-Thermosphere Coupling''': 3:30-5:00, Wednesday, June 26 Lumpkins Ballroon South, joint with IEMIT, discussion leader Doga Ozturk. <br />
ULF waves play important roles in M-I-T coupling, driving current systems that can lead to I-T system heating and geomagnetically induced currents. This session aims to bring together researchers from the ULF wave and M-I-T coupling research communities to discuss challenges associated with realistically modeling M-I-T coupling processes associated with these waves. The session will begin with a discussion of the ULF wave challenge event; comparisons between modeled / observed (PFISR) conductivities and modeled/observed ULF wave properties will be presented, and the community will be invited to discuss explanations for model/observation differences. The rest of the session is open for short presentations on ULF wave modeling challenges related to M-I-T coupling, including topics such as specifying conductivity and effect of conductivity on wave properties, effect of ionospheric boundary conditions in global simulations, boundary conditions and feedback between magnetosphere and ionosphere, capturing role of waves in ionospheric-thermospheric heating.<br />
# (Invited) Boyi Wang: Ionospheric modulation by Pc5 ULF waves and wave structure detected by PFISR<br />
# (Invited) Xiaojia Zhang / Anton Artemyev: ULF modulation of VLF waves and precipitation<br />
# Doga Ozturk: Update from GEM/CEDAR joint session, [https://drive.google.com/open?id=1WsSf4PFHiBo_iZ3za-bhUWKHFJd4MNQX ULF Wave activity and Meso-Scale electric field variability at high-latitude I-T system]<br />
# Anatoly Streltsov: ULF waves generated by the MI interactions near the plasmapause<br />
# Mergen Alimaganbetov: ULF waves observed in space and on the ground at high and low latitudes<br />
# Mark Engebretson: [https://drive.google.com/open?id=16WbDl3rnuehoifUqFj4oMw_Tn5WhEFlU Multi-Instrument Observations of Nighttime Impulsive Magnetic Events]<br />
# Bob Lysak: Modeling ionospheric conductance and ground magnetic fields<br />
# Yan Song: ULF wave, M-I coupling and Auroral formation.<br />
<br />
[https://drive.google.com/open?id=1wGpZPk086Zs54uWGtYiRjByPmVCFnsSv '''EMIC waves''']: 10:30-12:00, Thursday, June 27 New Mexico room, joint with Radiation Belt. <br />
The generation mechanisms of Electromagnetic Ion Cyclotron (EMIC) waves, their effects on energetic electrons and ions, and their propagation through the magnetosphere-ionosphere system are challenging topics that involve multiple GEM research areas. Despite several years of observations and improved global wave statistics, there are many unresolved questions that limit further investigation, modeling and prediction of dynamical processes in the inner magnetosphere involving EMIC waves. Hence, we invite short presentations that discuss recent findings in different areas of EMIC wave research and identify observations/models most needed to address unresolved questions.<br />
*Robert Allen, Outer magnetospheric EMIC wave source regions characterized by Cluster<br />
*Sarah Vines, EMIC waves in the outer magnetosphere: Observations of an off-equator source region<br />
*Justin Lee, [https://drive.google.com/open?id=1xlJfppvWgOC_JHy6QgPpptcI3GjkYuLC EMIC wave observations by MMS] <br />
*Chao Yue, The relationship between EMIC wave properties and proton distributions based on Van Allen Probes observations<br />
*Kristine Sigsbee, Simultaneous EMIC Wave Observations During a Van Allen Probes Conjunction<br />
*Hyomin Kim, [https://drive.google.com/open?id=1UmmYHxyIcH2FfQmRnffGNnCUNjH8S5qQ Observations of Particle Loss due to Injection-Associated EMIC Waves]<br />
*Yuri Shprits, Dips in PSD and how they are related to EMIC wave scattering<br />
*Richard Denton, Electromagnetic ion cyclotron waves in the dipole magnetosphere and pitch angle scattering of sub-MeV relativistic electrons by those waves<br />
*Qianli Ma, Pitch angle scattering of radiation belt electrons due to statistical EMIC wave spectra <br />
<br />
'''Recent advances in ULF wave research: Observations and HGSO coordination for ULF wave studies''': 1:30-3:00, Thursday, June 27 New Mexico room. <br />
Discussion of recent advances in ULF wave research, with focus on observations and a general discussion of Heliophysics/Geospace System Observatory coordination for ULF wave studies. We particularly encourage presentations describing (1) past or upcoming satellite conjunctions, (2) new data analysis tools, and/or (3) instrumentation/operation modes of interest to the ULF wave research community.<br />
*Seth Claudepierre/Matina Gkioulidou (invited), [https://drive.google.com/open?id=1bjENFjvkWSjLYA_EfFuTxhCyKtVlk7c1 Van Allen Probes: End of Mission and ULF wave studies]<br />
*Tetsuo Motoba, SuperMAG ULF wave tools<br />
*Sarah Vines, Determining EMIC wave vector properties through multi-point measurements: The wave curl analysis<br />
*Aaron Breneman, [https://drive.google.com/open?id=1NHlf9I_VV6vkx9id_NL4gE6YhEsSRxkG BARREL precipitation during solar wind driven ULF wave events] <br />
*Anatoly Streltsov, Effect of the Hall conductivity on generation of ULF waves<br />
*Mohammad Barani, [https://drive.google.com/open?id=1sCMVi0pbWsggpUUnotdl-4LO_hfGGFEc Estimating the Azimuthal Mode Structure of ULF Waves Based on Multiple GOES Satellite Observations]<br />
*Kazue Takahashi, L versus time structures of ground magnetic pulsations<br />
*Chih-Ping Wang, Earthward propagation of Pi2 waves<br />
<br />
'''ULF waves driven by wave-particle interactions and instabilities''': 3:30-5:00, Thursday, June 27 Lumpkins Ballroon South, discussion leaders: Xueling Shi and Hyomin Kim. <br />
Many ULF wave modes are closely related to instabilities and wave-particle interactions inside the magnetosphere: poloidal mode waves associated with particle injections, mirror/drift-mirror modes, buoyancy waves… These waves are often discussed in different contexts and in different GEM sessions. In addition, there have been relatively few studies of modeling internally generated ULF waves. The purpose of this session is to bring together modelers and observers to discuss the underlying processes that drive/damp these waves, their impact(s) on the M-I system (ring current, radiation belt, ionosphere,…), and the models/observations needed to better understand wave dynamics.<br />
*Xuzhi Zhou (invited), Acceleration of relativistic electrons by global-scale ULF waves<br />
*Tomotsugu Yamakawa (invited), [https://drive.google.com/open?id=1PEsq7oWVeXwwXn3JvE5ZvWQIIjfXwKRB Simulation of the excitation of storm-time Pc5 ULF waves by ring current ions based on the drift-kinetic model]<br />
*Frank Toffoletto, Normal Mode Analysis of Buoyancy Waves <br />
*Peter Chi, Observations of High-m Poloidal Waves along Magnetospheric Field Lines<br />
*Mike Hartinger, [https://drive.google.com/open?id=17do2Jxy01SJPmOloBxzTPID9ZzqaPGZI Observations of wave-particle interactions using MagEIS ultra-high resolution energy channels]<br />
*Jiang Liu, Ultralow Frequency Waves Deep Inside the Inner Magnetosphere Driven by Dipolarizing Flux Bundles, and their interaction with electrons<br />
*Kyle Murphy, TBD<br />
<br />
== 2019 Mini-GEM schedule ==<br />
UMEA will hold one session at the [https://gemworkshop.org/ 2019 mini-GEM] workshop<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 8, 2019, Nevada Room<br />
<br />
'''ULF wave modeling challenge event, HGSO coordination, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge and potential 2020 GEM sessions. The next part of the session is open for ULF wave research presentations discussing the ULF wave modeling challenge event or current/upcoming observation campaigns that are particularly useful for ULF wave studies. The last part of the session will be open for 1 slide ULF wave research highlights.<br />
<br />
*Mike Hartinger, [https://drive.google.com/open?id=1eQQc07g7nCTEGNwaTGesQx4ymIU6m815 UMEA updates and proposed sessions for 2020 GEM workshop]<br />
*Dong Lin, [https://drive.google.com/open?id=1SqiD1u69eyKNzLyrtvTWbMK05L5OrkrO LFM Simulations of ULF wave modeling challenge event]<br />
*Mohammad Barani, [https://drive.google.com/open?id=1fQAossqjQ-aBuGIBhDIW6I0_WEtHdQsF High-fidelity ULF wave azimuthal mode number structure estimation using MMS magnetometer observations], [https://www.youtube.com/watch?reload=9&v=W5Vya8pCjNE&t=1s link to related presentation on YouTube]<br />
*Chih-Ping Wang, [https://drive.google.com/open?id=19ugyLwyIp4YRuLpDuzT330IdbbFppQcr Inward propagation of Pi2 wave from plasma sheet to inner magnetosphere: THEMIS-GOES conjunctions]<br />
*Walk-ins<br />
<br />
== 2020 VGEM schedule ==<br />
UMEA will hold two sessions at the [https://gemworkshop.org/ 2020 Virtual GEM] workshop<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave modeling challenge event'''<br />
(Hosted by Xueling Shi)<br />
The first part of the session is for updates on research related to the challenge event (27-29 May 2017 storm): All modeling and observation talks welcome as long as they're related to this event. The last part of the session will be for short research highlights and oral summaries of posters.<br />
<br />
*Mike Hartinger (10 minutes), [https://drive.google.com/file/d/1Z5-g7-f-iKfpuWD03WVkA3Q2Rb9mbQfe/view?usp=sharing 2020 UMEA updates and overview of challenge event] <br />
*Simone Di Matteo (15 minutes), [https://drive.google.com/file/d/1acsSyIszg95muYurOkn0RmW0btblS3Ja/view?usp=sharing On some features characterizing the plasmasphere–magnetosphere–ionosphere system during the geomagnetic storm of 27 May 2017] <br />
*Bob McPherron (15 minutes), [https://drive.google.com/file/d/1pnqs49KamZF2BLgMdaoOroktmkBNnj1c/view?usp=sharing ULF wave activity at synchronous orbit during the May 27-29, 2017 Magnetic storm]<br />
*Boyi Wang (15 minutes), Ionospheric modulation by storm-time Pc5 ULF waves and wave structure detected by PFISR-THEMIS conjunctions<br />
*Lutz Rastaetter (15 minutes), [https://drive.google.com/file/d/1H9nTOrpQHX0NEau1eSktWjWM0KYbyfnM/view?usp=sharing Idealized ULF wave modeling challenge: high-resolution runs] <br />
*Mark Engebretson (5 minutes), [https://drive.google.com/file/d/1kvWyYe52OkTB7uUmKWRDSO305Jina-Yy/view?usp=sharing Nighttime magnetic perturbation events observed in Arctic Canada: Superposed epoch analysis]<br />
*Jinxing Li (5 minutes), Electron microinjections in association with compressional ULF waves: MMS observations<br />
*Xiaojia Zhang (5 minutes), [https://drive.google.com/file/d/1fKwf0t1ohDZIxF5NPtsgGKNP0cBEqECn/view?usp=sharing Spreading of Magnetopause-Generated Ultra-Low-Frequency Perturbations and the Associated Whistler Modulation] <br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave research highlights'''<br />
These will be contributed talks with priority given to graduate students and postdocs. The rationale is that virtual GEM will not provide the same type of networking opportunities as in-person GEM, and we'd like to balance this somewhat by giving more opportunities to students/postdocs to present their work on ULF waves.<br />
<br />
All presentations are 10 minutes including discussion:<br />
*Rachel Rice, Characteristics of Kelvin-Helmholtz Waves as Observed by MMS<br />
*Dong Lin, Idealized ULF wave simulations with GAMERA-RCM model<br />
*Boyi Wang, The interaction between ions and the ULF waves driven by a foreshock transient<br />
*Jayashree Bulusu, [https://drive.google.com/file/d/1YyRAo0I7Cf4-buxhTBXLxYaTWw7GX6SZ/view?usp=sharing Investigation of Pi2s during super quiet conditions from low and mid-latitudes]<br />
*Changzhi Zhai, High-m Poloidal ULF Wave Signatures in GPS TEC Data<br />
*Simone Di Matteo, [https://drive.google.com/file/d/1yYaidiu7O4a0Z8PeQXELiyatB03hJQyX/view?usp=sharing Power Spectral Density Background Estimate and Signal Detection via the Multitaper Method] <br />
*Yixin Hao, [https://drive.google.com/file/d/1iIf5QpLE9t7IThiIPNwhCoRHrbFDoR8R/view?usp=sharing Simultaneous observations of localized and global drift resonance]<br />
*Mohammad Barani, [https://drive.google.com/file/d/1it2y8JXJzrbjmt56MWia7ffbei63gIwC/view?usp=sharing Effects of realistic mode number structure on radial diffusion estimation]<br />
<br />
== 2021 Virtual Mini-GEM schedule ==<br />
UMEA will hold one session at the Virtual Mini-GEM Worskhop.<br />
<br />
'''Time''': 12:00-14:00 US Eastern Time, Friday, January 22, 2021<br />
<br />
'''ULF wave modeling challenge event, planning for 2021 GEM meeting, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge event, including an invited talk by Naoko Takahashi. The next part of the session will be for open discussion on potential 2021 GEM sessions. The final part of the session will be open for ULF wave research highlights. <br />
*Mike Hartinger, Brief Introduction to Challenge event<br />
*Naoko Takahashi, Relative contribution of ULF waves and whistler-mode chorus to the radiation belt variation during May 2017 storm<br />
*Ian Kelley, GPS TEC response during the ULF wave challenge event<br />
*Mike Hartinger, ULF wave geoelectric fields during the challenge event<br />
*All, Planning for 2021 GEM sessions<br />
*Bob Lysak, FLRs in Jupiter's magnetosphere<br />
*Toshi Nishimura, Upcoming conjunctions for ULF wave studies<br />
*Toshi Nishimura, PFISR and all-sky imager observations of Pc5 ULF waves during substorms<br />
*Francesco Lena, Detection of Hertz Frequency Multiharmonic Field Line Resonances at Low-L (L=1.1–1.5) During Van Allen Probe Perigee Passes<br />
<br />
== 2021 VGEM schedule ==<br />
UMEA will lead four sessions at the [https://gemworkshop.org/ 2021 Virtual GEM] workshop.<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''Recent Advances in ULF Wave Research'''<br />
This session will start with a short update on the ULF wave modeling challenge. The rest of the session will be for recent advances in ULF wave research, with priority given to presentations (1) with data or modeling results related to the challenge event (27-28 May 2017) or (2) discussions of ULF wave data-model comparisons.<br />
<br />
*Michelle Salzano, IPDP-Pi1B - modeling drift shell splitting<br />
*Aditi Upadhyay, Occurrence Characteristics of Electromagnetic Ion Cyclotron Waves at the Indian Antactrtic Station, Maitri<br />
*Yangyang Shen, Tens to hundreds of keV electron precipitation driven by kinetic Alfven waves during an electron injection<br />
*Chih-Ping Wang, Statistical results for Pi2 waves associated with the plasma sheet BBFs observed by THEMIS-RBSP pair with RBSP inside or outside the plasmasphere<br />
*Tom Elsden, Modelling the Varying Location of Field Line Resonances During Geomagnetic Storms<br />
*Denny Oliveira, Factors controlling shock-induced magnetospheric ULF waves<br />
*Short Oral Summaries of Posters<br />
*Open Discussion<br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''The Future of ULF Wave Research'''<br />
This session will begin with a review of the ULF wave FG’s original goals, research topics covered in the last 5 years and related activities, and unresolved questions and research objectives. The remainder of the session is open for 1-2 slide presentations on major unresolved questions in ULF wave research. We particularly encourage presentations (1) exploring topics that could be addressed by current/future GEM FG or decadal survey white paper, (2) highlighting major questions or obstacles preventing progress in ULF wave research (e.g., missing data in a critical region, missing theory/modeling component), (3) discuss how ULF wave researchers can best take advantage of future satellite missions, ground-based infrastructure, computing advances/big data/AI, and modeling/theory advances. <br />
<br />
*Mike Hartinger, Retrospective on the ULF wave focus group<br />
*Martin Archer, Surface Waves<br />
*Tom Elsden, 3D FLRs<br />
*Alexander Drozdov, Radial Diffusion<br />
*Ayomide Olabode and Michelle Salzano, Ground Magnetic Perturbations<br />
*Mark Engebretson, Pc1 waves / MMS k-vector technique<br />
*Xueling Shi, Applications of TEC observations<br />
*Open discussion, walk-in presentations welcome<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Tuesday, July 27, 2021<br />
<br />
'''ULF Wave M-I Coupling Processes'''<br />
This session is joint with the IEMIT FG. The session will begin with a review of the role of ULF waves on M-I coupling. The remainder of the session is open for 5-min presentations on ULF wave topics related to M-I coupling, e.g., auroral acceleration, particle precipitation, geomagnetic perturbations, GICs, etc. More questions and discussions will be left to the end.<br />
<br />
*Hui Zhang, Role of ULF waves in M-I coupling<br />
*Chaosong Huang, Global Pc5 pulsations<br />
*Tetsuo Motoba, Daytime Pc5 Diffuse Auroral Pulsations and Their Association With Outer Magnetospheric ULF Waves<br />
*Anton Artemyev, ULF driven precipitations as observed by ELFIN<br />
*Mark Engebretson, Magnetic perturbation events related to GICs<br />
*Denny Oliveira, IP shock impact angle control of local intense dB/dt variations during substorm<br />
*Xueling Shi, Sources of Intense Geoelectric Fields in the United States<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Friday, July 30, 2021<br />
<br />
'''Coupling Between ULF Waves and Cold Plasma'''<br />
This session is joint with the Cold Plasma FG. The session will begin with a review of mechanisms that couple cold plasma populations to ULF waves by Richard Denton. The remainder of the session is for contributed presentations describing (1) recent advances in our understanding of cold plasma interactions with ULF waves and (2) outstanding questions that could be discussed in future cold plasma FG sessions.<br />
<br />
*Richard Denton, Coupling Between ULF Waves and Cold Plasma<br />
*Alex Degeling, Modeling ULF Waves Trapped in a Plasmaspheric Density Plume <br />
*Eun Hwa Kim, Can Electromagnetic Ion Cyclotron Waves Propagate to the Ground?: 2D Full Wave Simulation<br />
*Bob Lysak, Relation of plasmaspheric cavity modes to Pi2 pulsations in an asymmetric plasmasphere<br />
*Yixin Hao, ULF wave-cold plasma interaction<br />
*Mike Hartinger, The relationship between global ULF wave properties and radial Alfven speed profile</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=FG:_ULF_Wave_Modeling,_Effects,_and_Applications&diff=5359FG: ULF Wave Modeling, Effects, and Applications2021-07-24T14:49:13Z<p>Mdhartin: /* 2021 VGEM schedule */</p>
<hr />
<div>''Focus Group Leaders:''<br />
* Michael Hartinger, Space Science Institute (mhartinger@spacescience.org)<br />
* Kazue Takahashi, Applied Physics Laboratory<br />
* Alexander Drozdov, UCLA<br />
* Maria Usanova, University of Colorado<br />
* Brian Kress, University of Colorado and NOAA-NCEI<br />
* Xueling Shi, Virginia Tech<br />
<br />
Focus Group term: 2016-2021<br />
<br />
Join the discussion on [https://gemworkshop.slack.com/archives/C016U8PA7TJ Slack], including discussion related to the 2020 GEM and 2021 miniGEM meetings.<br />
<br />
== Science Questions ==<br />
Our group aims to address the following broad science questions: What mechanisms excite ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in Magnetosphere-Ionosphere coupling?<br />
<br />
== Focus Group Proposal ==<br />
[http://gem.epss.ucla.edu/mediawiki/FGproposals/Hartinger-UMEA.pdf ULF Wave Modeling, Effects, and Applications (UMEA)] (December 2015)<br />
<br />
== ULF wave modeling challenge ==<br />
<br />
One part of the ULF wave modeling challenge involves running several global MHD simulation codes with identical, idealized solar wind driving conditions (sinusoidal density variation), then comparing the resulting global ULF wave properties and discussing differences in the context of differing boundary conditions, grids, etc. More details can be found here: [http://ccmc.gsfc.nasa.gov/challenges/ULF/ ULF wave modeling challenge at CCMC]<br />
<br />
Another part of the ULF wave modeling challenge involves data-model comparisons during specific events. At the 2017 GEM and mini-GEM meetings several [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing challenge events] were proposed, including two [https://drive.google.com/open?id=1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI 2017 events].<br />
<br />
We have selected the [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing 27-28 May 2017 storm event] for the ULF wave modeling challenge due to favorable solar wind coverage and availability of numerous satellites (MMS, ARASE, THEMIS, RBSP, Cluster, GOES, ...) and ground-based observations for global context and multi-point wave observations. We will be continuously updating this [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing overview presentation] with observation and modeling results. Model output and observations for the challenge event - including global densities from the NURD model - can be obtained [https://drive.google.com/drive/folders/1Bk9vJtbEHd-vSuYqr3UG9NGCqaBn69hw?usp=sharing here]. If you would like to add additional observations/model output to the google drive or overview pdf, please contact the co-chairs.<br />
<br />
CCMC has run several global MHD simulation codes using the driving conditions of the ULF wave challenge event. At the 2019 GEM meeting and future GEM/mini-GEM meetings, we plan data-model comparisons to identify where model/data don't agree and discuss these differences in the context of incorrect boundary conditions (e.g., compare model ionosphere to local PFISR-derived conductivities), missing physics, numerical dissipation, etc. Please contact CCMC/Lutz Rastaetter and model developers before using this simulation output in publications:<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_SWMF_040319_1 Space Weather Modeling Framework simulation], IMF Bx=0 (other parameters as in event). Full 2-day event, 3D output every 15s, virtual ground magnetometer. If you haven't used CCMC visualization tools before, be aware that you shouldn’t submit multiple visualization requests at the same time, as this could crash CCMC server for these large 3D files. Instead, request a batch process or wait for the first visualization request to complete. The easiest/fastest visualization is to follow the link above and scroll down until you see the virtual ground magnetometer and satellites list. Click on the magnetometer/satellite of interest, then select which parameter(s) to display/download. <br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_1 OpenGGCM run 1] – IMF Bx = -7 nT. Smaller time range available on 28 May 0400-1000, only virtual ground magnetometer from POKR/CMO available now. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_1 Full results including virtual satellite.]<br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_2 Open GGCM run 2] – IMF Bx = 0 nT (as in SWMF simulation). Same format as other OpenGGCM simulation. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_2 Full results including virtual satellite.]<br />
<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_LFM_051519_2 LFM simulation]<br />
<br />
== ULF wave HGSO event coordination ==<br />
Our group is helping coordinate analysis of conjunction events for ULF wave studies, including requesting instrument operation modes favorable for ULF wave analysis.<br />
<br />
The [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] 0400-0800 UT conjunction event includes several satellites (THEMIS, Cluster, Van Allen Probes, GOES, Geotail, FIREBIRD, METOP, POES, DMSP) in the pre-midnight sector during a conjunction with the Poker Flat Incoherent Scatter Radar and several SuperDARN radars. PFISR was operating throughout the conjunction, several SuperDARN radars were in high resolution sampling modes, and several satellites were operating in fast survey/burst mode. The conjunction is favorable for modeling and observation studies of magnetosphere-ionosphere coupling via ULF waves, wave-particle interactions, global ULF wave properties, and many other topics. [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing This pdf] summarizes preliminary results<br />
<br />
Several web-based tools are available for identifying future conjunctions, including [https://ergsc.isee.nagoya-u.ac.jp/analysis/index.shtml.en upcoming conjunctions between ARASE and Van Allen Probes/ground] and conjunctions between [https://swarm-aurora.com/conjunctionFinder/ SWARM/all-sky cameras].<br />
<br />
'''There are also many specialized, web-based tools for ULF wave analysis (please contact FG co-chairs to add to this list):'''<br />
<br />
*SuperMAG ground-based magnetometer [http://supermag.jhuapl.edu/rBrowse/?start=2001-01-30T05%3A00%3A00.000Z&step=14400 global ULF wave plots]<br />
<br />
*CARISMA ground-based magnetometer [http://www.carisma.ca/carisma-data/fgm-pc1-power-spectra Pc1 power spectra] and [http://www.carisma.ca/carisma-data/fgm-pc5-power-spectra Pc5 power spectra]<br />
<br />
*Augsburg College/UNH Arctic and Antarctic [http://space.augsburg.edu/searchcoil/index.html search coil magnetometer survey plots] <br />
<br />
*Augsburg College (hosted by ViRBO) [http://virbo.org/Augsburg/ULF ULF wave index]<br />
<br />
*[http://vt.superdarn.org/tiki-index.php?page=DaViT+DynFFT SuperDARN wave analysis] and [http://vt.superdarn.org/tiki-index.php?page=Data+Inventory identification of high time-resolution SuperDARN beams]<br />
<br />
*THEMIS satellite fluxgate magnetometer [http://themis.ssl.berkeley.edu/summary.php?year=2014&month=05&day=11&hour=0024&sumType=thmfgmdyn&type=themislinfgl wave survey plots]<br />
<br />
*National Institute of Polar Research inter-hemispheric comparisons of Syowa/Iceland [http://iugonet0.nipr.ac.jp/web/induction/ induction magnetometer spectra]<br />
<br />
*[http://mist.nianet.org/Satellite_Conjunctions/ Inter-hemispheric comparisons] during satellite conjunctions with Arctic(DTU Space)/Antarctic(Virginia Tech) magnetometers<br />
<br />
*[http://kho.unis.no/uaf_msp.htm Meridian Scanning Photometer plots] from [http://kho.unis.no/ UNIS/Kjell Henriksen Observatory], for context on open-closed boundary and ULF modulation of the aurora<br />
<br />
== Summary Reports for GEM workshops ==<br />
[https://drive.google.com/file/d/1QLH8FcKm3-f25aLwoetOuYJGZu5sPgN3/view?usp=sharing 2016 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1SRIv6Gn-NNnqGPHGvjvZQcdDml2GQpv_/view?usp=sharing 2017 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1clzFHWrxC9hvYf9kECJx4bPn9xn8WwsG/view?usp=sharing 2018 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1_fLwZFCLBTBHnq8HkaFPWUvaIY81E-t0/view?usp=sharing 2019 UMEA FG report]<br />
<br />
== 2016 Mini-GEM schedule ==<br />
UMEA will hold one session at the [http://www.cpe.vt.edu/gem-mini/ mini-GEM workshop]: ULF wave modeling, effects and applications updates<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 11, 2016<br />
<br />
'''Location''': Oregon Room, Holiday Inn Golden Gateway<br />
<br />
'''Schedule:'''<br />
<br />
'''First Half (12:00 – 12:45): 3 talks (~15 min each):'''<br />
<br />
*1. Mike Hartinger -- [http://gem.epss.ucla.edu/mediawikiwiki/images/7/7c/UMEAoverview_miniGEM2016.pdf Overview of UMEA current activities, discussion of future plans]<br />
<br />
*2. Lutz Rastaetter -- ULF wave modeling challenge at CCMC<br />
<br />
*3. Robert Rankin -- Modeling the global properties and ground-based signatures of ULF waves and wave-particle interactions<br />
<br />
'''Second Half (12:45 – 13:30): (5 minutes each, 1-2 slides, order of talks may change):'''<br />
<br />
*1. Xueling Shi -- SuperDARN THEMIS Mode Data Tracker & ULF Wave Detection<br />
<br />
*2. Richard Denton -- Mass density inferred from Alfven wave frequencies measured by RBSP<br />
<br />
*3. Lars Daldorff -- ULF waves, particle transport and energization in global MHD simulations with plasmasphere<br />
<br />
*4. Alexander Drozdov -- Dependence of radiation belt simulations to assumed radial diffusion rates tested for two empirical models of radial transport<br />
<br />
*5. Bob Lysak -- Quarter Wavelength Modes<br />
<br />
*6. Walk-ins<br />
<br />
== 2017 GEM meeting schedule ==<br />
UMEA will hold four sessions session at the 2017 GEM meeting<br />
<br />
'''UMEA Update and plans, general discussion of ULF wave modeling and observations''': 10:30-12:15, Monday, June 19, Port VI-VIII<br />
<br />
*1. Michael Hartinger -- [https://drive.google.com/file/d/0B57bC_V89WW6dnBCbmFFSkFURUk/view?usp=sharing UMEA update]<br />
<br />
*2. Toshi Nishimura -- PFISR measurements during the 2 May 2017 HGSO event<br />
<br />
*3. Xueling Shi -- [https://drive.google.com/file/d/0B57bC_V89WW6OUcyNGNWM0piWnc/view?usp=sharing A Survey of Ionospheric ULF Wave Signatures in SuperDARN Data: Occurrence Statistics and Driving Mechanisms]<br />
<br />
*4. Tetsuo Motoba -- Dayside Auroral Pulsations<br />
<br />
*5. Brian Kress and Rob Redmon -- Newly Available GOES 8-16 Particle and Magnetic Field Measurements<br />
<br />
*6. Dick Wolf -- Theory of magnetospheric buoyancy waves<br />
<br />
<br />
'''ULF wave interactions with the radiation belt and ring current populations''': 1:30-3:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Rualdo Soto-Chavez -- Generation of Pc5-ULF wave by the drift-mirror instability<br />
<br />
*2. Zhiyang Xia -- [https://drive.google.com/file/d/0B57bC_V89WW6Y1VQRXJKd3Qya3c/view?usp=sharing Eigenmode analysis of compressional poloidal modes in a self-consistent magnetic field]<br />
<br />
*3. Mark Engebretson -- [https://drive.google.com/file/d/0B57bC_V89WW6QlM3LU9lTVVwZ1E/view?usp=sharing Statistical study of the upper frequency cutoff of helium band EMIC waves observed by the Van Allen Probes]<br />
<br />
*4. Alexander Drozdov -- Radial diffusion and EMIC waves in the long-term simulation and in the case study<br />
<br />
*5. Seth Claudepierre -- Global MHD simulations driven by idealized Alfvenic fluctuations in the solar wind<br />
<br />
*6. Michael Hartinger -- Radiation belt response to large scale, monochromatic ULF waves: LANL-GEO observations<br />
<br />
<br />
'''ULF wave modeling, including CCMC modeling challenge, Joint with MMV''': 3:30-5:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Lutz Rastaetter -- CCMC ULF wave modeling challenge update and challenge events<br />
<br />
*2. Scot Elkington -- [https://drive.google.com/file/d/0B57bC_V89WW6WUxJcGNqbUU2bzA/view?usp=sharing ULF wave activity and diffusion coefficients during QARBM challenge events], [https://drive.google.com/file/d/0B3MAHZknMumcem40dTVyNVRFbE0/view?usp=sharing Ashar F. Ali’s write-up on Event-Specific Radial Diffusion Coefficients Derived Using RBSP EMFISIS and EFW Data]<br />
<br />
*3. Katariina Nykyri -- KHI challenge events<br />
<br />
*4. All -- Open Discussion of Challenge Events<br />
<br />
*5. Doga Ozturk -- Effects of Increased Solar Wind Dynamic Pressure on the Coupled M-I system under different IMF By<br />
<br />
*6. Kazue Takahashi -- Cavity mode Van Allen Probe observations<br />
<br />
*7. Bob Lysak -- Cavity mode models<br />
<br />
*8. Tom Elsden -- [https://drive.google.com/file/d/0B57bC_V89WW6SDNnYjdwSVM3Y3c/view?usp=sharing The Theoretical Foundation of 3D Alfven Resonances: Time Dependent Solutions]<br />
<br />
<br />
'''Magnetosphere-Ionosphere coupling processes associated with localized disturbances caused by dayside kinetic phenomena: Joint with “Dayside Kinetic Processes…” and “Testing proposed links…”''': 3:30-5:00, Tuesday, June 20, Port VI-VIII<br />
<br />
*1. Peter Chi -- Magnetospheric and ionospheric responses to a localized disturbance: The macroscopic view<br />
<br />
*2. Hui Zhang -- Magnetospheric ULF waves generated by foreshock transients<br />
<br />
*3. Hui Zhang -- Modeling challenges in simulating HFA geoeffects<br />
<br />
*4. Boyi Wang -- Optical signatures of dayside ULF waves during magnetosheath high-speed jets<br />
<br />
*5. Katariina Nykyri -- The effect of magnetosheath seed spectrum on KH evolution and associated mass transport<br />
<br />
*6. Kyle Murphy -- A statistical study of discrete ULF wave power observed by GOES<br />
<br />
== 2017 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2017 mini-GEM] workshop<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 10, 2017, Canal/50<br />
<br />
'''ULF wave modeling challenges'''<br />
Discussion of final plans for the CCMC ULF wave modeling challenge with idealized drivers, as well as open discussion of new challenges involving data-model and model-model comparisons during [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing specific events]. Please come with 1-2 slides showing examples of such comparisons, ideas for improving ULF wave models, and/or ideas for specific modeling challenges/sessions relevant to the FG science questions.<br />
<br />
*1. 12:00-12:30 Overview of CCMC ULF wave modeling challenge with idealized driving conditions, description of challenge events and targets proposed during 2017 GEM meeting and November modeling telecon (Michael Hartinger, Lutz Rastaetter)<br />
*2. 12:30-13:30 [https://drive.google.com/file/d/1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI/view?usp=sharing Open discussion of challenge events and targets (Allison Jaynes,] Robert Rankin), select challenge event to be analyzed at 2018 GEM<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 10, 2017, Canal/50<br />
<br />
'''Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
Discussion of HGSO coordination for ULF wave studies. This includes updates on the [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] conjunction event followed by an open discussion of conjunctions and datasets that are particularly useful for ULF wave studies, including upcoming RBSP-ERG-ground conjunctions. Please come with 1-2 slides showing examples of datasets and past/upcoming conjunctions ideal for addressing the FG science questions: What excites ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in MI coupling? We welcome discussion from both modelers and observers of the types of conjunctions and observations that are most needed to address these questions.<br />
<br />
*1. 13:50-14:20 Recently available datasets and conjunctions for ULF wave studies (Chih-Ping Wang, Xueling Shi, Sana Qamar, Rob Redmon)<br />
*2. 14:20-14:35 Updates on 2 May 2017 conjunction event (Toshi Nishimura, Michael Hartinger)<br />
*3. 14:35-15:20 Upcoming ARASE-RBSP conjunctions (Yoshi Miyoshi), Open Discussion of HGSO coordination for ULF wave studies (Toshi Nishimura, Kazue Takahashi)<br />
<br />
== 2018 GEM meeting schedule ==<br />
UMEA will hold [https://drive.google.com/file/d/1uh-ZOICfOBzNs9KLe3saFMnY9P-oqV9R/view?usp=sharing four sessions] at the 2018 GEM meeting. <br />
<br />
'''ULF waves during particle injections and dipolarizations, joint with Dipolarization and Substorm FG''': 10:30-12:00, Monday, June 18<br />
<br />
*1. Discussion of Session Topic<br />
<br />
*2. Bob Lysak -- [https://drive.google.com/file/d/1w8o5aGYbLsIEy2YmaoosF3WNeWTuLE59/view?usp=sharing Ionospheric Conductivity Effects on Pi2 Pulsations]<br />
<br />
*3. Mike Hartinger -- [https://drive.google.com/file/d/1tcJgspMQDkhPPvSTng4eZP7h-j7jvVR7/view?usp=sharing Pi2 waves during an extended period with stable plasmapause location and variable geomagnetic activity]<br />
<br />
*4. Toshi Nishimura -- Ionosphere observations of Pc5 ULF waves during 2018 HGSO conjunctions<br />
<br />
*5. Xueling Shi -- Long-lasting poloidal ULF waves observed by multiple satellite and SuperDARN HF radars<br />
<br />
*6. Jian Yang -- New RCM-I simulation results for buoyancy waves<br />
<br />
*7. Dick Wolf -- [https://drive.google.com/file/d/1vTkH_lmgXCcvkAYU6HgO_R5ZgIdGji3O/view?usp=sharing Theory of Buoyancy Waves] <br />
<br />
*8. Yan Song -- What Causes the Substorm Expansion Phase and Associated ULF Waves?<br />
<br />
<br />
'''Recent advances in ULF wave research''': 1:30-3:00, Monday, June 18 <br />
<br />
*1. [https://drive.google.com/file/d/1ms9kDYlBhCnxti8z9o9Lx8y0PPmkWu_-/view?usp=sharing Overview of focus group goals and recent progress]<br />
<br />
*2. Brief ULF wave poster overviews (Tuesday posters)<br />
<br />
*3. Kazue Takahashi -- Observation of nightside ULF waves by RBSP and Arase<br />
<br />
*4. Tom Elsden -- Broadband Excitation of 3D Alfven Resonances (FLRs) in an MHD Waveguide<br />
<br />
*5. Boyi Wang -- 2-D structure of foreshock driven Pc5 ULF waves observed by the THEMIS satellites and South Pole imager<br />
<br />
*6. Xiaochen Shen -- Foreshock transient-driven ultra-low frequency (ULF) waves with dawn-dusk asymmetry of wave power<br />
<br />
*7. Chih-Ping Wang -- ULF waves possibly driven by tailward propagation of foreshock perturbations<br />
<br />
*8. Allison Jaynes -- [https://drive.google.com/file/d/1EC3yPvda8fA0LUr9qTfszluNDLs6LdHT/view?usp=sharing Fast diffusion of ultra-relativistic electrons in the outer radiation belt: 17 March 2015 storm event]<br />
<br />
*9. Rualdo Soto -- The Drift-Mirror instability in Earth's inner magnetosphere<br />
<br />
*10. Martin Archer/Mike Hartinger -- [https://drive.google.com/file/d/1t4fmiiZP9wdJ-40TISEC7BuicEd64m7W/view?usp=sharing Results from Sonification and Citizen Science of Magnetospheric ULF waves]<br />
<br />
<br />
'''EMIC wave generation, propagation, and interactions''': 3:30-5:00, Monday, June 18 (discussion leaders: Alexander Drozdov and Maria Usanova)<br />
[https://drive.google.com/open?id=15rjO2UxK8sqdOfHXunDSLv5q-z51vwuD Session Summary]<br />
<br />
*1. Dedong Wang -- EMIC wave observations from Van Allen Probes and MMS<br />
<br />
*2. Mark Engebretson -- [https://drive.google.com/file/d/1jkhN45ezaeQyeAA7HmVuYOF_izjAMYra/view?usp=sharing Van Allen Probes, and ground based magnetometer observations of EMIC waves associated with a modest interplanetary shock]<br />
<br />
*3. Maria Usanova -- MMS Observations of Harmonic Electromagnetic Cyclotron Waves<br />
<br />
*4. Naritoshi Kitamura -- Direct measurements of energy transfer from hot H+ to EMIC waves by MMS<br />
<br />
*5. Bruce Fritz -- ELF Whistler Dependence on a Sunlit Ionosphere<br />
<br />
*6. Chae-Woo Jun -- EMIC waves associated with/without the injection inside/outside the plasmapause<br />
<br />
*7. Hyomin Kim -- Injection-associated EMIC waves<br />
<br />
*8. Sebastian Cervantes -- EMIC wave parameterization in radiation belt reanalysis<br />
<br />
*9. Maria Usanova -- Long-term correlation of EMIC wave activity and radiation belt flux variations<br />
<br />
*10. Alexander Drozdov -- The effects due to the EMIC waves in the VERB code modeling<br />
<br />
<br />
'''ULF wave modeling challenge, joint with MMV FG''': 3:30-5:00, Wednesday, June 20<br />
<br />
*1. Brief ULF wave poster overviews (Thursday posters)<br />
<br />
*2. Mike Hartinger: [https://drive.google.com/file/d/1g2cL_qaDbASLH5DoJ_auJKQCbG96sdQn/view?usp=sharing ULF wave modeling challenge event overview, discussion of challenge targets (continuing during session)]<br />
<br />
*3. Mariko Teramoto: ARASE ULF wave observations during challenge event<br />
<br />
*4. Sam Califf: [https://drive.google.com/file/d/1CvbVG2Dp8e6RokJE0501L8-LU9ipdUFT/view?usp=sharing GOES-14 and 16 observations during the ULF wave challenge event, Data Discussion]<br />
<br />
*5. Toshi Nishimura: [https://drive.google.com/file/d/1cavbwNU4LoAigIsGvGF_UtiTaM97dFtP/view?usp=sharing PFISR measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*6. Dogacan Su Ozturk: [https://drive.google.com/file/d/1MmP3D_4eeJbEVJzUyx8fAtFsG3b0grzy/view?usp=sharing The modeling study of the 27 March 2017 Event] <br />
<br />
*7. Xiaochen Shen: GEM Challenge Event: ULF wave-related electron and proton precipitation/negative dynamic pressure pulse driven EMIC wave<br />
<br />
*8. Tetsuo Motoba: [https://drive.google.com/file/d/1544ngYBXat-zUC1gZqo0lMVUZtYqxUqH/view?usp=sharing Auroral measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*9. Others discuss when their figures/summary plots in event overview pdf are presented…<br />
<br />
== 2018 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2018 mini-GEM] workshop<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF modulation of the aurora, Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
This session focuses on understanding a variety of mechanisms responsible for ULF modulations of the aurora. Eric Donovan will give a 30 minute invited presentation, with the rest of the session open for presentations and discussion on this topic. We welcome discussion of ULF aurora generation mechanisms and the types of conjunctions, observations, and models needed to understand the zoo of ULF auroral modulations. We also welcome discussion of upcoming observation campaigns/satellite conjunctions that would be particularly useful for ULF wave studies.<br />
<br />
*1. Eric Donovan<br />
*2. Tetsuo Motoba<br />
*3. Slava Pilipenko<br />
*4. Boyi Wang / Toshi Nishimura<br />
*5. Open discussion<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF wave modeling challenge and research highlights'''<br />
The first part of the session is for updates on the idealized ULF wave modeling challenge and potential 2019 GEM sessions. The next part of the session is for observation/model presentations relevant to the 27-28 May 2017 ULF wave challenge event and final selection of the modeling challenge targets – all types of models and observations welcome. The last part of the session will be open for 1 slide ULF wave modeling and observation research highlights. <br />
<br />
*1. [https://drive.google.com/file/d/1vqxxn3gYXfzDKABe9yRwMgR8vbKRua_j/view?usp=sharing 2019 GEM session ideas] (Mike Hartinger)<br />
*2. Idealized Modeling Challenge (Lutz Rastaetter)<br />
*3. ULF wave modeling challenge event updates: Rob Redmon/Sam Califf/Mike Hartinger (GOES magnetometer observations), Yoshi Miyoshi (Arase magnetic field observations), [https://drive.google.com/file/d/1B6DGHvAzUhBG79eUJWPsUD2BSjGhQrrw/view?usp=sharing Hyomin Kim (wave-particle interaction)], [https://drive.google.com/file/d/180iaBGrbCPf1rYy6uVZn8OsLTOFREqsD/view?usp=sharing Dong Lin (LFM simulations)]<br />
*4. General ULF wave modeling: [https://drive.google.com/file/d/10gUKitjDPnbV_g9r9CAHDFeE365wUQQd/view?usp=sharing Yaireska Collado-Vega (vortex identification/surface waves)], [https://drive.google.com/file/d/1kkGlYKoYHr7XZf5nT3kaXITUD3tpNynJ/view?usp=sharing Alex Degeling (ULF wave radiation belt interactions)] <br />
*5. Research highlights (1-slide): Rualdo Soto (Van Allen Probes and Cluster satellites’ observations of Pc 5 (mHz) magnetic pulsations), [https://drive.google.com/file/d/1V_Joz3psBQbCBoVKRYaOKdKIEoZ72WgQ/view?usp=sharing Xueling Shi (SuperDARN ULF waves)], Martin Archer (magnetopause surface eigenmodes), [https://drive.google.com/file/d/1Mmi3VfERKswG3dpYidVUgOQra2UG-9s2/view?usp=sharing Martin Archer (sonification)]<br />
<br />
== 2019 GEM meeting schedule ==<br />
<br />
UMEA will hold [https://drive.google.com/file/d/1KmH9XqxrisGH_g4s0ny7QDkutmv7tKlr/view?usp=sharing six sessions] at the 2019 GEM meeting, four joint with other focus groups. <br />
<br />
'''Recent advances in ULF wave research: Modeling''': 3:30-5:00, Monday, June 24 New Mexico room, joint with MMV. <br />
Discussion of advances in ULF wave research, with focus on modeling and modeling challenges (e.g., boundary conditions, grid resolution, missing physics). This includes models of the effects of ULF waves on inner magnetosphere dynamics and wave-particle interactions. We particularly encourage presentations focused on the ULF wave modeling challenge, including data-model comparisons for the 27-28 May 2017 challenge event.<br />
*Mike Hartinger, [https://drive.google.com/open?id=1Drkq9epsQWY4AjpV1EF-8Ci_kaKyN2jk FG updates]<br />
*Jesper Gjerloev, SuperMAG ULF updates<br />
*Tetsuo Motoba, High-time resolution SuperMAG ULF data products<br />
*Lutz Rastaetter, ULF wave modeling challenge<br />
*Maulik Patel, MHD test particle simulations of the 16 July 2017 shock compression of the dayside magnetopause <br />
*Bob McPherron, Pi 2 pulsations during the storm of May 27-29 2017, The Statistics of Pi 2 Pulsation Occurrence during a Major Magnetic Storm<br />
*Dong Lin, LFM simulations of surface waves during challenge event<br />
<br />
'''The ULF response to dayside transients with different temporal/spatial scales''': 10:30-12:00, Wednesday, June 26 Santa Fe room, discussion leader: Tom Elsden, joint with Dayside Kinetics and IHMIC. <br />
Dayside transient phenomena associated with kinetic scale processes cause a variety of ULF wave behaviour in the magnetosphere and further, contribute to significant magnetospheric asymmetries. The aim of this session is to bring together the expertise of the three focus groups listed above, to answer outstanding questions at the overlap of these disciplines. It is hoped that such a discussion should prove fruitful enough to generate a JGR commentary paper in this area. With this in mind, speakers in this session are encouraged to give their views as to the current state of the subject area, and how outstanding problems may be addressed in the future.<br />
* Tom Elsden - Session introduction and goals<br />
* Ferdinand Plaschke (invited) - An overview of dayside transients causing ULF waves<br />
* Tom Elsden - 3D ULF wave modeling with MHD<br />
* Boyi Wang - The role of magnetosheath high-speed jets in triggering magnetospheric Pc5 ULF waves<br />
* Bob Lysak - Ionospheric asymmetries and quarter-wave modes<br />
* Xueling Shi - Conjugate Observations of ULF Waves during an Extended Period of Radial IMF<br />
* Michael Hartinger - Localized magnetopause surface wave activity and [https://drive.google.com/open?id=1d8lDB-FPGa6VErL37aZz3xZSgpNvxbk0 modeling challenges]<br />
* Discussion<br />
<br />
'''ULF wave modeling challenges associated with Magnetosphere-Ionosphere-Thermosphere Coupling''': 3:30-5:00, Wednesday, June 26 Lumpkins Ballroon South, joint with IEMIT, discussion leader Doga Ozturk. <br />
ULF waves play important roles in M-I-T coupling, driving current systems that can lead to I-T system heating and geomagnetically induced currents. This session aims to bring together researchers from the ULF wave and M-I-T coupling research communities to discuss challenges associated with realistically modeling M-I-T coupling processes associated with these waves. The session will begin with a discussion of the ULF wave challenge event; comparisons between modeled / observed (PFISR) conductivities and modeled/observed ULF wave properties will be presented, and the community will be invited to discuss explanations for model/observation differences. The rest of the session is open for short presentations on ULF wave modeling challenges related to M-I-T coupling, including topics such as specifying conductivity and effect of conductivity on wave properties, effect of ionospheric boundary conditions in global simulations, boundary conditions and feedback between magnetosphere and ionosphere, capturing role of waves in ionospheric-thermospheric heating.<br />
# (Invited) Boyi Wang: Ionospheric modulation by Pc5 ULF waves and wave structure detected by PFISR<br />
# (Invited) Xiaojia Zhang / Anton Artemyev: ULF modulation of VLF waves and precipitation<br />
# Doga Ozturk: Update from GEM/CEDAR joint session, [https://drive.google.com/open?id=1WsSf4PFHiBo_iZ3za-bhUWKHFJd4MNQX ULF Wave activity and Meso-Scale electric field variability at high-latitude I-T system]<br />
# Anatoly Streltsov: ULF waves generated by the MI interactions near the plasmapause<br />
# Mergen Alimaganbetov: ULF waves observed in space and on the ground at high and low latitudes<br />
# Mark Engebretson: [https://drive.google.com/open?id=16WbDl3rnuehoifUqFj4oMw_Tn5WhEFlU Multi-Instrument Observations of Nighttime Impulsive Magnetic Events]<br />
# Bob Lysak: Modeling ionospheric conductance and ground magnetic fields<br />
# Yan Song: ULF wave, M-I coupling and Auroral formation.<br />
<br />
[https://drive.google.com/open?id=1wGpZPk086Zs54uWGtYiRjByPmVCFnsSv '''EMIC waves''']: 10:30-12:00, Thursday, June 27 New Mexico room, joint with Radiation Belt. <br />
The generation mechanisms of Electromagnetic Ion Cyclotron (EMIC) waves, their effects on energetic electrons and ions, and their propagation through the magnetosphere-ionosphere system are challenging topics that involve multiple GEM research areas. Despite several years of observations and improved global wave statistics, there are many unresolved questions that limit further investigation, modeling and prediction of dynamical processes in the inner magnetosphere involving EMIC waves. Hence, we invite short presentations that discuss recent findings in different areas of EMIC wave research and identify observations/models most needed to address unresolved questions.<br />
*Robert Allen, Outer magnetospheric EMIC wave source regions characterized by Cluster<br />
*Sarah Vines, EMIC waves in the outer magnetosphere: Observations of an off-equator source region<br />
*Justin Lee, [https://drive.google.com/open?id=1xlJfppvWgOC_JHy6QgPpptcI3GjkYuLC EMIC wave observations by MMS] <br />
*Chao Yue, The relationship between EMIC wave properties and proton distributions based on Van Allen Probes observations<br />
*Kristine Sigsbee, Simultaneous EMIC Wave Observations During a Van Allen Probes Conjunction<br />
*Hyomin Kim, [https://drive.google.com/open?id=1UmmYHxyIcH2FfQmRnffGNnCUNjH8S5qQ Observations of Particle Loss due to Injection-Associated EMIC Waves]<br />
*Yuri Shprits, Dips in PSD and how they are related to EMIC wave scattering<br />
*Richard Denton, Electromagnetic ion cyclotron waves in the dipole magnetosphere and pitch angle scattering of sub-MeV relativistic electrons by those waves<br />
*Qianli Ma, Pitch angle scattering of radiation belt electrons due to statistical EMIC wave spectra <br />
<br />
'''Recent advances in ULF wave research: Observations and HGSO coordination for ULF wave studies''': 1:30-3:00, Thursday, June 27 New Mexico room. <br />
Discussion of recent advances in ULF wave research, with focus on observations and a general discussion of Heliophysics/Geospace System Observatory coordination for ULF wave studies. We particularly encourage presentations describing (1) past or upcoming satellite conjunctions, (2) new data analysis tools, and/or (3) instrumentation/operation modes of interest to the ULF wave research community.<br />
*Seth Claudepierre/Matina Gkioulidou (invited), [https://drive.google.com/open?id=1bjENFjvkWSjLYA_EfFuTxhCyKtVlk7c1 Van Allen Probes: End of Mission and ULF wave studies]<br />
*Tetsuo Motoba, SuperMAG ULF wave tools<br />
*Sarah Vines, Determining EMIC wave vector properties through multi-point measurements: The wave curl analysis<br />
*Aaron Breneman, [https://drive.google.com/open?id=1NHlf9I_VV6vkx9id_NL4gE6YhEsSRxkG BARREL precipitation during solar wind driven ULF wave events] <br />
*Anatoly Streltsov, Effect of the Hall conductivity on generation of ULF waves<br />
*Mohammad Barani, [https://drive.google.com/open?id=1sCMVi0pbWsggpUUnotdl-4LO_hfGGFEc Estimating the Azimuthal Mode Structure of ULF Waves Based on Multiple GOES Satellite Observations]<br />
*Kazue Takahashi, L versus time structures of ground magnetic pulsations<br />
*Chih-Ping Wang, Earthward propagation of Pi2 waves<br />
<br />
'''ULF waves driven by wave-particle interactions and instabilities''': 3:30-5:00, Thursday, June 27 Lumpkins Ballroon South, discussion leaders: Xueling Shi and Hyomin Kim. <br />
Many ULF wave modes are closely related to instabilities and wave-particle interactions inside the magnetosphere: poloidal mode waves associated with particle injections, mirror/drift-mirror modes, buoyancy waves… These waves are often discussed in different contexts and in different GEM sessions. In addition, there have been relatively few studies of modeling internally generated ULF waves. The purpose of this session is to bring together modelers and observers to discuss the underlying processes that drive/damp these waves, their impact(s) on the M-I system (ring current, radiation belt, ionosphere,…), and the models/observations needed to better understand wave dynamics.<br />
*Xuzhi Zhou (invited), Acceleration of relativistic electrons by global-scale ULF waves<br />
*Tomotsugu Yamakawa (invited), [https://drive.google.com/open?id=1PEsq7oWVeXwwXn3JvE5ZvWQIIjfXwKRB Simulation of the excitation of storm-time Pc5 ULF waves by ring current ions based on the drift-kinetic model]<br />
*Frank Toffoletto, Normal Mode Analysis of Buoyancy Waves <br />
*Peter Chi, Observations of High-m Poloidal Waves along Magnetospheric Field Lines<br />
*Mike Hartinger, [https://drive.google.com/open?id=17do2Jxy01SJPmOloBxzTPID9ZzqaPGZI Observations of wave-particle interactions using MagEIS ultra-high resolution energy channels]<br />
*Jiang Liu, Ultralow Frequency Waves Deep Inside the Inner Magnetosphere Driven by Dipolarizing Flux Bundles, and their interaction with electrons<br />
*Kyle Murphy, TBD<br />
<br />
== 2019 Mini-GEM schedule ==<br />
UMEA will hold one session at the [https://gemworkshop.org/ 2019 mini-GEM] workshop<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 8, 2019, Nevada Room<br />
<br />
'''ULF wave modeling challenge event, HGSO coordination, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge and potential 2020 GEM sessions. The next part of the session is open for ULF wave research presentations discussing the ULF wave modeling challenge event or current/upcoming observation campaigns that are particularly useful for ULF wave studies. The last part of the session will be open for 1 slide ULF wave research highlights.<br />
<br />
*Mike Hartinger, [https://drive.google.com/open?id=1eQQc07g7nCTEGNwaTGesQx4ymIU6m815 UMEA updates and proposed sessions for 2020 GEM workshop]<br />
*Dong Lin, [https://drive.google.com/open?id=1SqiD1u69eyKNzLyrtvTWbMK05L5OrkrO LFM Simulations of ULF wave modeling challenge event]<br />
*Mohammad Barani, [https://drive.google.com/open?id=1fQAossqjQ-aBuGIBhDIW6I0_WEtHdQsF High-fidelity ULF wave azimuthal mode number structure estimation using MMS magnetometer observations], [https://www.youtube.com/watch?reload=9&v=W5Vya8pCjNE&t=1s link to related presentation on YouTube]<br />
*Chih-Ping Wang, [https://drive.google.com/open?id=19ugyLwyIp4YRuLpDuzT330IdbbFppQcr Inward propagation of Pi2 wave from plasma sheet to inner magnetosphere: THEMIS-GOES conjunctions]<br />
*Walk-ins<br />
<br />
== 2020 VGEM schedule ==<br />
UMEA will hold two sessions at the [https://gemworkshop.org/ 2020 Virtual GEM] workshop<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave modeling challenge event'''<br />
(Hosted by Xueling Shi)<br />
The first part of the session is for updates on research related to the challenge event (27-29 May 2017 storm): All modeling and observation talks welcome as long as they're related to this event. The last part of the session will be for short research highlights and oral summaries of posters.<br />
<br />
*Mike Hartinger (10 minutes), [https://drive.google.com/file/d/1Z5-g7-f-iKfpuWD03WVkA3Q2Rb9mbQfe/view?usp=sharing 2020 UMEA updates and overview of challenge event] <br />
*Simone Di Matteo (15 minutes), [https://drive.google.com/file/d/1acsSyIszg95muYurOkn0RmW0btblS3Ja/view?usp=sharing On some features characterizing the plasmasphere–magnetosphere–ionosphere system during the geomagnetic storm of 27 May 2017] <br />
*Bob McPherron (15 minutes), [https://drive.google.com/file/d/1pnqs49KamZF2BLgMdaoOroktmkBNnj1c/view?usp=sharing ULF wave activity at synchronous orbit during the May 27-29, 2017 Magnetic storm]<br />
*Boyi Wang (15 minutes), Ionospheric modulation by storm-time Pc5 ULF waves and wave structure detected by PFISR-THEMIS conjunctions<br />
*Lutz Rastaetter (15 minutes), [https://drive.google.com/file/d/1H9nTOrpQHX0NEau1eSktWjWM0KYbyfnM/view?usp=sharing Idealized ULF wave modeling challenge: high-resolution runs] <br />
*Mark Engebretson (5 minutes), [https://drive.google.com/file/d/1kvWyYe52OkTB7uUmKWRDSO305Jina-Yy/view?usp=sharing Nighttime magnetic perturbation events observed in Arctic Canada: Superposed epoch analysis]<br />
*Jinxing Li (5 minutes), Electron microinjections in association with compressional ULF waves: MMS observations<br />
*Xiaojia Zhang (5 minutes), [https://drive.google.com/file/d/1fKwf0t1ohDZIxF5NPtsgGKNP0cBEqECn/view?usp=sharing Spreading of Magnetopause-Generated Ultra-Low-Frequency Perturbations and the Associated Whistler Modulation] <br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave research highlights'''<br />
These will be contributed talks with priority given to graduate students and postdocs. The rationale is that virtual GEM will not provide the same type of networking opportunities as in-person GEM, and we'd like to balance this somewhat by giving more opportunities to students/postdocs to present their work on ULF waves.<br />
<br />
All presentations are 10 minutes including discussion:<br />
*Rachel Rice, Characteristics of Kelvin-Helmholtz Waves as Observed by MMS<br />
*Dong Lin, Idealized ULF wave simulations with GAMERA-RCM model<br />
*Boyi Wang, The interaction between ions and the ULF waves driven by a foreshock transient<br />
*Jayashree Bulusu, [https://drive.google.com/file/d/1YyRAo0I7Cf4-buxhTBXLxYaTWw7GX6SZ/view?usp=sharing Investigation of Pi2s during super quiet conditions from low and mid-latitudes]<br />
*Changzhi Zhai, High-m Poloidal ULF Wave Signatures in GPS TEC Data<br />
*Simone Di Matteo, [https://drive.google.com/file/d/1yYaidiu7O4a0Z8PeQXELiyatB03hJQyX/view?usp=sharing Power Spectral Density Background Estimate and Signal Detection via the Multitaper Method] <br />
*Yixin Hao, [https://drive.google.com/file/d/1iIf5QpLE9t7IThiIPNwhCoRHrbFDoR8R/view?usp=sharing Simultaneous observations of localized and global drift resonance]<br />
*Mohammad Barani, [https://drive.google.com/file/d/1it2y8JXJzrbjmt56MWia7ffbei63gIwC/view?usp=sharing Effects of realistic mode number structure on radial diffusion estimation]<br />
<br />
== 2021 Virtual Mini-GEM schedule ==<br />
UMEA will hold one session at the Virtual Mini-GEM Worskhop.<br />
<br />
'''Time''': 12:00-14:00 US Eastern Time, Friday, January 22, 2021<br />
<br />
'''ULF wave modeling challenge event, planning for 2021 GEM meeting, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge event, including an invited talk by Naoko Takahashi. The next part of the session will be for open discussion on potential 2021 GEM sessions. The final part of the session will be open for ULF wave research highlights. <br />
*Mike Hartinger, Brief Introduction to Challenge event<br />
*Naoko Takahashi, Relative contribution of ULF waves and whistler-mode chorus to the radiation belt variation during May 2017 storm<br />
*Ian Kelley, GPS TEC response during the ULF wave challenge event<br />
*Mike Hartinger, ULF wave geoelectric fields during the challenge event<br />
*All, Planning for 2021 GEM sessions<br />
*Bob Lysak, FLRs in Jupiter's magnetosphere<br />
*Toshi Nishimura, Upcoming conjunctions for ULF wave studies<br />
*Toshi Nishimura, PFISR and all-sky imager observations of Pc5 ULF waves during substorms<br />
*Francesco Lena, Detection of Hertz Frequency Multiharmonic Field Line Resonances at Low-L (L=1.1–1.5) During Van Allen Probe Perigee Passes<br />
<br />
== 2021 VGEM schedule ==<br />
UMEA will lead four sessions at the [https://gemworkshop.org/ 2021 Virtual GEM] workshop.<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''Recent Advances in ULF Wave Research'''<br />
This session will start with a short update on the ULF wave modeling challenge. The rest of the session will be for recent advances in ULF wave research, with priority given to presentations (1) with data or modeling results related to the challenge event (27-28 May 2017) or (2) discussions of ULF wave data-model comparisons.<br />
<br />
*Michelle Salzano, IPDP-Pi1B - modeling drift shell splitting<br />
*Aditi Upadhyay, Occurrence Characteristics of Electromagnetic Ion Cyclotron Waves at the Indian Antactrtic Station, Maitri<br />
*Yangyang Shen, Tens to hundreds of keV electron precipitation driven by kinetic Alfven waves during an electron injection<br />
*Chih-Ping Wang, Statistical results for Pi2 waves associated with the plasma sheet BBFs observed by THEMIS-RBSP pair with RBSP inside or outside the plasmasphere<br />
*Tom Elsden, Modelling the Varying Location of Field Line Resonances During Geomagnetic Storms<br />
*Denny Oliveira, Factors controlling shock-induced magnetospheric ULF waves<br />
*Short Oral Summaries of Posters<br />
*Open Discussion<br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''The Future of ULF Wave Research'''<br />
This session will begin with a review of the ULF wave FG’s original goals, research topics covered in the last 5 years and related activities, and unresolved questions and research objectives. The remainder of the session is open for 1-2 slide presentations on major unresolved questions in ULF wave research. We particularly encourage presentations (1) exploring topics that could be addressed by current/future GEM FG or decadal survey white paper, (2) highlighting major questions or obstacles preventing progress in ULF wave research (e.g., missing data in a critical region, missing theory/modeling component), (3) discuss how ULF wave researchers can best take advantage of future satellite missions, ground-based infrastructure, computing advances/big data/AI, and modeling/theory advances. <br />
<br />
*Mike Hartinger, Retrospective on the ULF wave focus group<br />
*Martin Archer, Surface Waves<br />
*Tom Elsden, 3D FLRs<br />
*Solene Lejosne, Wave-Particle Interactions<br />
*Alexander Drozdov, Radial Diffusion<br />
*Ayomide Olabode and Michelle Salzano, Ground Magnetic Perturbations<br />
*Mark Engebretson, Pc1 waves / MMS k-vector technique<br />
*Xueling Shi, Applications of TEC observations<br />
*Open discussion, walk-in presentations welcome<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Tuesday, July 27, 2021<br />
<br />
'''ULF Wave M-I Coupling Processes'''<br />
This session is joint with the IEMIT FG. The session will begin with a review of the role of ULF waves on M-I coupling. The remainder of the session is open for 5-min presentations on ULF wave topics related to M-I coupling, e.g., auroral acceleration, particle precipitation, geomagnetic perturbations, GICs, etc. More questions and discussions will be left to the end.<br />
<br />
*Hui Zhang, Role of ULF waves in M-I coupling<br />
*Chaosong Huang, Global Pc5 pulsations<br />
*Tetsuo Motoba, Daytime Pc5 Diffuse Auroral Pulsations and Their Association With Outer Magnetospheric ULF Waves<br />
*Anton Artemyev, ULF driven precipitations as observed by ELFIN<br />
*Mark Engebretson, Magnetic perturbation events related to GICs<br />
*Denny Oliveira, IP shock impact angle control of local intense dB/dt variations during substorm<br />
*Xueling Shi, Sources of Intense Geoelectric Fields in the United States<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Friday, July 30, 2021<br />
<br />
'''Coupling Between ULF Waves and Cold Plasma'''<br />
This session is joint with the Cold Plasma FG. The session will begin with a review of mechanisms that couple cold plasma populations to ULF waves by Richard Denton. The remainder of the session is for contributed presentations describing (1) recent advances in our understanding of cold plasma interactions with ULF waves and (2) outstanding questions that could be discussed in future cold plasma FG sessions.<br />
<br />
*Richard Denton, Coupling Between ULF Waves and Cold Plasma<br />
*Alex Degeling, Modeling ULF Waves Trapped in a Plasmaspheric Density Plume <br />
*Eun Hwa Kim, Can Electromagnetic Ion Cyclotron Waves Propagate to the Ground?: 2D Full Wave Simulation<br />
*Bob Lysak, Relation of plasmaspheric cavity modes to Pi2 pulsations in an asymmetric plasmasphere<br />
*Yixin Hao, ULF wave-cold plasma interaction<br />
*Mike Hartinger, The relationship between global ULF wave properties and radial Alfven speed profile</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=FG:_ULF_Wave_Modeling,_Effects,_and_Applications&diff=5352FG: ULF Wave Modeling, Effects, and Applications2021-07-23T01:09:07Z<p>Mdhartin: /* 2021 VGEM schedule */</p>
<hr />
<div>''Focus Group Leaders:''<br />
* Michael Hartinger, Space Science Institute (mhartinger@spacescience.org)<br />
* Kazue Takahashi, Applied Physics Laboratory<br />
* Alexander Drozdov, UCLA<br />
* Maria Usanova, University of Colorado<br />
* Brian Kress, University of Colorado and NOAA-NCEI<br />
* Xueling Shi, Virginia Tech<br />
<br />
Focus Group term: 2016-2021<br />
<br />
Join the discussion on [https://gemworkshop.slack.com/archives/C016U8PA7TJ Slack], including discussion related to the 2020 GEM and 2021 miniGEM meetings.<br />
<br />
== Science Questions ==<br />
Our group aims to address the following broad science questions: What mechanisms excite ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in Magnetosphere-Ionosphere coupling?<br />
<br />
== Focus Group Proposal ==<br />
[http://gem.epss.ucla.edu/mediawiki/FGproposals/Hartinger-UMEA.pdf ULF Wave Modeling, Effects, and Applications (UMEA)] (December 2015)<br />
<br />
== ULF wave modeling challenge ==<br />
<br />
One part of the ULF wave modeling challenge involves running several global MHD simulation codes with identical, idealized solar wind driving conditions (sinusoidal density variation), then comparing the resulting global ULF wave properties and discussing differences in the context of differing boundary conditions, grids, etc. More details can be found here: [http://ccmc.gsfc.nasa.gov/challenges/ULF/ ULF wave modeling challenge at CCMC]<br />
<br />
Another part of the ULF wave modeling challenge involves data-model comparisons during specific events. At the 2017 GEM and mini-GEM meetings several [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing challenge events] were proposed, including two [https://drive.google.com/open?id=1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI 2017 events].<br />
<br />
We have selected the [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing 27-28 May 2017 storm event] for the ULF wave modeling challenge due to favorable solar wind coverage and availability of numerous satellites (MMS, ARASE, THEMIS, RBSP, Cluster, GOES, ...) and ground-based observations for global context and multi-point wave observations. We will be continuously updating this [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing overview presentation] with observation and modeling results. Model output and observations for the challenge event - including global densities from the NURD model - can be obtained [https://drive.google.com/drive/folders/1Bk9vJtbEHd-vSuYqr3UG9NGCqaBn69hw?usp=sharing here]. If you would like to add additional observations/model output to the google drive or overview pdf, please contact the co-chairs.<br />
<br />
CCMC has run several global MHD simulation codes using the driving conditions of the ULF wave challenge event. At the 2019 GEM meeting and future GEM/mini-GEM meetings, we plan data-model comparisons to identify where model/data don't agree and discuss these differences in the context of incorrect boundary conditions (e.g., compare model ionosphere to local PFISR-derived conductivities), missing physics, numerical dissipation, etc. Please contact CCMC/Lutz Rastaetter and model developers before using this simulation output in publications:<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_SWMF_040319_1 Space Weather Modeling Framework simulation], IMF Bx=0 (other parameters as in event). Full 2-day event, 3D output every 15s, virtual ground magnetometer. If you haven't used CCMC visualization tools before, be aware that you shouldn’t submit multiple visualization requests at the same time, as this could crash CCMC server for these large 3D files. Instead, request a batch process or wait for the first visualization request to complete. The easiest/fastest visualization is to follow the link above and scroll down until you see the virtual ground magnetometer and satellites list. Click on the magnetometer/satellite of interest, then select which parameter(s) to display/download. <br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_1 OpenGGCM run 1] – IMF Bx = -7 nT. Smaller time range available on 28 May 0400-1000, only virtual ground magnetometer from POKR/CMO available now. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_1 Full results including virtual satellite.]<br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_2 Open GGCM run 2] – IMF Bx = 0 nT (as in SWMF simulation). Same format as other OpenGGCM simulation. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_2 Full results including virtual satellite.]<br />
<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_LFM_051519_2 LFM simulation]<br />
<br />
== ULF wave HGSO event coordination ==<br />
Our group is helping coordinate analysis of conjunction events for ULF wave studies, including requesting instrument operation modes favorable for ULF wave analysis.<br />
<br />
The [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] 0400-0800 UT conjunction event includes several satellites (THEMIS, Cluster, Van Allen Probes, GOES, Geotail, FIREBIRD, METOP, POES, DMSP) in the pre-midnight sector during a conjunction with the Poker Flat Incoherent Scatter Radar and several SuperDARN radars. PFISR was operating throughout the conjunction, several SuperDARN radars were in high resolution sampling modes, and several satellites were operating in fast survey/burst mode. The conjunction is favorable for modeling and observation studies of magnetosphere-ionosphere coupling via ULF waves, wave-particle interactions, global ULF wave properties, and many other topics. [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing This pdf] summarizes preliminary results<br />
<br />
Several web-based tools are available for identifying future conjunctions, including [https://ergsc.isee.nagoya-u.ac.jp/analysis/index.shtml.en upcoming conjunctions between ARASE and Van Allen Probes/ground] and conjunctions between [https://swarm-aurora.com/conjunctionFinder/ SWARM/all-sky cameras].<br />
<br />
'''There are also many specialized, web-based tools for ULF wave analysis (please contact FG co-chairs to add to this list):'''<br />
<br />
*SuperMAG ground-based magnetometer [http://supermag.jhuapl.edu/rBrowse/?start=2001-01-30T05%3A00%3A00.000Z&step=14400 global ULF wave plots]<br />
<br />
*CARISMA ground-based magnetometer [http://www.carisma.ca/carisma-data/fgm-pc1-power-spectra Pc1 power spectra] and [http://www.carisma.ca/carisma-data/fgm-pc5-power-spectra Pc5 power spectra]<br />
<br />
*Augsburg College/UNH Arctic and Antarctic [http://space.augsburg.edu/searchcoil/index.html search coil magnetometer survey plots] <br />
<br />
*Augsburg College (hosted by ViRBO) [http://virbo.org/Augsburg/ULF ULF wave index]<br />
<br />
*[http://vt.superdarn.org/tiki-index.php?page=DaViT+DynFFT SuperDARN wave analysis] and [http://vt.superdarn.org/tiki-index.php?page=Data+Inventory identification of high time-resolution SuperDARN beams]<br />
<br />
*THEMIS satellite fluxgate magnetometer [http://themis.ssl.berkeley.edu/summary.php?year=2014&month=05&day=11&hour=0024&sumType=thmfgmdyn&type=themislinfgl wave survey plots]<br />
<br />
*National Institute of Polar Research inter-hemispheric comparisons of Syowa/Iceland [http://iugonet0.nipr.ac.jp/web/induction/ induction magnetometer spectra]<br />
<br />
*[http://mist.nianet.org/Satellite_Conjunctions/ Inter-hemispheric comparisons] during satellite conjunctions with Arctic(DTU Space)/Antarctic(Virginia Tech) magnetometers<br />
<br />
*[http://kho.unis.no/uaf_msp.htm Meridian Scanning Photometer plots] from [http://kho.unis.no/ UNIS/Kjell Henriksen Observatory], for context on open-closed boundary and ULF modulation of the aurora<br />
<br />
== Summary Reports for GEM workshops ==<br />
[https://drive.google.com/file/d/1QLH8FcKm3-f25aLwoetOuYJGZu5sPgN3/view?usp=sharing 2016 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1SRIv6Gn-NNnqGPHGvjvZQcdDml2GQpv_/view?usp=sharing 2017 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1clzFHWrxC9hvYf9kECJx4bPn9xn8WwsG/view?usp=sharing 2018 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1_fLwZFCLBTBHnq8HkaFPWUvaIY81E-t0/view?usp=sharing 2019 UMEA FG report]<br />
<br />
== 2016 Mini-GEM schedule ==<br />
UMEA will hold one session at the [http://www.cpe.vt.edu/gem-mini/ mini-GEM workshop]: ULF wave modeling, effects and applications updates<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 11, 2016<br />
<br />
'''Location''': Oregon Room, Holiday Inn Golden Gateway<br />
<br />
'''Schedule:'''<br />
<br />
'''First Half (12:00 – 12:45): 3 talks (~15 min each):'''<br />
<br />
*1. Mike Hartinger -- [http://gem.epss.ucla.edu/mediawikiwiki/images/7/7c/UMEAoverview_miniGEM2016.pdf Overview of UMEA current activities, discussion of future plans]<br />
<br />
*2. Lutz Rastaetter -- ULF wave modeling challenge at CCMC<br />
<br />
*3. Robert Rankin -- Modeling the global properties and ground-based signatures of ULF waves and wave-particle interactions<br />
<br />
'''Second Half (12:45 – 13:30): (5 minutes each, 1-2 slides, order of talks may change):'''<br />
<br />
*1. Xueling Shi -- SuperDARN THEMIS Mode Data Tracker & ULF Wave Detection<br />
<br />
*2. Richard Denton -- Mass density inferred from Alfven wave frequencies measured by RBSP<br />
<br />
*3. Lars Daldorff -- ULF waves, particle transport and energization in global MHD simulations with plasmasphere<br />
<br />
*4. Alexander Drozdov -- Dependence of radiation belt simulations to assumed radial diffusion rates tested for two empirical models of radial transport<br />
<br />
*5. Bob Lysak -- Quarter Wavelength Modes<br />
<br />
*6. Walk-ins<br />
<br />
== 2017 GEM meeting schedule ==<br />
UMEA will hold four sessions session at the 2017 GEM meeting<br />
<br />
'''UMEA Update and plans, general discussion of ULF wave modeling and observations''': 10:30-12:15, Monday, June 19, Port VI-VIII<br />
<br />
*1. Michael Hartinger -- [https://drive.google.com/file/d/0B57bC_V89WW6dnBCbmFFSkFURUk/view?usp=sharing UMEA update]<br />
<br />
*2. Toshi Nishimura -- PFISR measurements during the 2 May 2017 HGSO event<br />
<br />
*3. Xueling Shi -- [https://drive.google.com/file/d/0B57bC_V89WW6OUcyNGNWM0piWnc/view?usp=sharing A Survey of Ionospheric ULF Wave Signatures in SuperDARN Data: Occurrence Statistics and Driving Mechanisms]<br />
<br />
*4. Tetsuo Motoba -- Dayside Auroral Pulsations<br />
<br />
*5. Brian Kress and Rob Redmon -- Newly Available GOES 8-16 Particle and Magnetic Field Measurements<br />
<br />
*6. Dick Wolf -- Theory of magnetospheric buoyancy waves<br />
<br />
<br />
'''ULF wave interactions with the radiation belt and ring current populations''': 1:30-3:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Rualdo Soto-Chavez -- Generation of Pc5-ULF wave by the drift-mirror instability<br />
<br />
*2. Zhiyang Xia -- [https://drive.google.com/file/d/0B57bC_V89WW6Y1VQRXJKd3Qya3c/view?usp=sharing Eigenmode analysis of compressional poloidal modes in a self-consistent magnetic field]<br />
<br />
*3. Mark Engebretson -- [https://drive.google.com/file/d/0B57bC_V89WW6QlM3LU9lTVVwZ1E/view?usp=sharing Statistical study of the upper frequency cutoff of helium band EMIC waves observed by the Van Allen Probes]<br />
<br />
*4. Alexander Drozdov -- Radial diffusion and EMIC waves in the long-term simulation and in the case study<br />
<br />
*5. Seth Claudepierre -- Global MHD simulations driven by idealized Alfvenic fluctuations in the solar wind<br />
<br />
*6. Michael Hartinger -- Radiation belt response to large scale, monochromatic ULF waves: LANL-GEO observations<br />
<br />
<br />
'''ULF wave modeling, including CCMC modeling challenge, Joint with MMV''': 3:30-5:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Lutz Rastaetter -- CCMC ULF wave modeling challenge update and challenge events<br />
<br />
*2. Scot Elkington -- [https://drive.google.com/file/d/0B57bC_V89WW6WUxJcGNqbUU2bzA/view?usp=sharing ULF wave activity and diffusion coefficients during QARBM challenge events], [https://drive.google.com/file/d/0B3MAHZknMumcem40dTVyNVRFbE0/view?usp=sharing Ashar F. Ali’s write-up on Event-Specific Radial Diffusion Coefficients Derived Using RBSP EMFISIS and EFW Data]<br />
<br />
*3. Katariina Nykyri -- KHI challenge events<br />
<br />
*4. All -- Open Discussion of Challenge Events<br />
<br />
*5. Doga Ozturk -- Effects of Increased Solar Wind Dynamic Pressure on the Coupled M-I system under different IMF By<br />
<br />
*6. Kazue Takahashi -- Cavity mode Van Allen Probe observations<br />
<br />
*7. Bob Lysak -- Cavity mode models<br />
<br />
*8. Tom Elsden -- [https://drive.google.com/file/d/0B57bC_V89WW6SDNnYjdwSVM3Y3c/view?usp=sharing The Theoretical Foundation of 3D Alfven Resonances: Time Dependent Solutions]<br />
<br />
<br />
'''Magnetosphere-Ionosphere coupling processes associated with localized disturbances caused by dayside kinetic phenomena: Joint with “Dayside Kinetic Processes…” and “Testing proposed links…”''': 3:30-5:00, Tuesday, June 20, Port VI-VIII<br />
<br />
*1. Peter Chi -- Magnetospheric and ionospheric responses to a localized disturbance: The macroscopic view<br />
<br />
*2. Hui Zhang -- Magnetospheric ULF waves generated by foreshock transients<br />
<br />
*3. Hui Zhang -- Modeling challenges in simulating HFA geoeffects<br />
<br />
*4. Boyi Wang -- Optical signatures of dayside ULF waves during magnetosheath high-speed jets<br />
<br />
*5. Katariina Nykyri -- The effect of magnetosheath seed spectrum on KH evolution and associated mass transport<br />
<br />
*6. Kyle Murphy -- A statistical study of discrete ULF wave power observed by GOES<br />
<br />
== 2017 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2017 mini-GEM] workshop<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 10, 2017, Canal/50<br />
<br />
'''ULF wave modeling challenges'''<br />
Discussion of final plans for the CCMC ULF wave modeling challenge with idealized drivers, as well as open discussion of new challenges involving data-model and model-model comparisons during [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing specific events]. Please come with 1-2 slides showing examples of such comparisons, ideas for improving ULF wave models, and/or ideas for specific modeling challenges/sessions relevant to the FG science questions.<br />
<br />
*1. 12:00-12:30 Overview of CCMC ULF wave modeling challenge with idealized driving conditions, description of challenge events and targets proposed during 2017 GEM meeting and November modeling telecon (Michael Hartinger, Lutz Rastaetter)<br />
*2. 12:30-13:30 [https://drive.google.com/file/d/1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI/view?usp=sharing Open discussion of challenge events and targets (Allison Jaynes,] Robert Rankin), select challenge event to be analyzed at 2018 GEM<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 10, 2017, Canal/50<br />
<br />
'''Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
Discussion of HGSO coordination for ULF wave studies. This includes updates on the [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] conjunction event followed by an open discussion of conjunctions and datasets that are particularly useful for ULF wave studies, including upcoming RBSP-ERG-ground conjunctions. Please come with 1-2 slides showing examples of datasets and past/upcoming conjunctions ideal for addressing the FG science questions: What excites ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in MI coupling? We welcome discussion from both modelers and observers of the types of conjunctions and observations that are most needed to address these questions.<br />
<br />
*1. 13:50-14:20 Recently available datasets and conjunctions for ULF wave studies (Chih-Ping Wang, Xueling Shi, Sana Qamar, Rob Redmon)<br />
*2. 14:20-14:35 Updates on 2 May 2017 conjunction event (Toshi Nishimura, Michael Hartinger)<br />
*3. 14:35-15:20 Upcoming ARASE-RBSP conjunctions (Yoshi Miyoshi), Open Discussion of HGSO coordination for ULF wave studies (Toshi Nishimura, Kazue Takahashi)<br />
<br />
== 2018 GEM meeting schedule ==<br />
UMEA will hold [https://drive.google.com/file/d/1uh-ZOICfOBzNs9KLe3saFMnY9P-oqV9R/view?usp=sharing four sessions] at the 2018 GEM meeting. <br />
<br />
'''ULF waves during particle injections and dipolarizations, joint with Dipolarization and Substorm FG''': 10:30-12:00, Monday, June 18<br />
<br />
*1. Discussion of Session Topic<br />
<br />
*2. Bob Lysak -- [https://drive.google.com/file/d/1w8o5aGYbLsIEy2YmaoosF3WNeWTuLE59/view?usp=sharing Ionospheric Conductivity Effects on Pi2 Pulsations]<br />
<br />
*3. Mike Hartinger -- [https://drive.google.com/file/d/1tcJgspMQDkhPPvSTng4eZP7h-j7jvVR7/view?usp=sharing Pi2 waves during an extended period with stable plasmapause location and variable geomagnetic activity]<br />
<br />
*4. Toshi Nishimura -- Ionosphere observations of Pc5 ULF waves during 2018 HGSO conjunctions<br />
<br />
*5. Xueling Shi -- Long-lasting poloidal ULF waves observed by multiple satellite and SuperDARN HF radars<br />
<br />
*6. Jian Yang -- New RCM-I simulation results for buoyancy waves<br />
<br />
*7. Dick Wolf -- [https://drive.google.com/file/d/1vTkH_lmgXCcvkAYU6HgO_R5ZgIdGji3O/view?usp=sharing Theory of Buoyancy Waves] <br />
<br />
*8. Yan Song -- What Causes the Substorm Expansion Phase and Associated ULF Waves?<br />
<br />
<br />
'''Recent advances in ULF wave research''': 1:30-3:00, Monday, June 18 <br />
<br />
*1. [https://drive.google.com/file/d/1ms9kDYlBhCnxti8z9o9Lx8y0PPmkWu_-/view?usp=sharing Overview of focus group goals and recent progress]<br />
<br />
*2. Brief ULF wave poster overviews (Tuesday posters)<br />
<br />
*3. Kazue Takahashi -- Observation of nightside ULF waves by RBSP and Arase<br />
<br />
*4. Tom Elsden -- Broadband Excitation of 3D Alfven Resonances (FLRs) in an MHD Waveguide<br />
<br />
*5. Boyi Wang -- 2-D structure of foreshock driven Pc5 ULF waves observed by the THEMIS satellites and South Pole imager<br />
<br />
*6. Xiaochen Shen -- Foreshock transient-driven ultra-low frequency (ULF) waves with dawn-dusk asymmetry of wave power<br />
<br />
*7. Chih-Ping Wang -- ULF waves possibly driven by tailward propagation of foreshock perturbations<br />
<br />
*8. Allison Jaynes -- [https://drive.google.com/file/d/1EC3yPvda8fA0LUr9qTfszluNDLs6LdHT/view?usp=sharing Fast diffusion of ultra-relativistic electrons in the outer radiation belt: 17 March 2015 storm event]<br />
<br />
*9. Rualdo Soto -- The Drift-Mirror instability in Earth's inner magnetosphere<br />
<br />
*10. Martin Archer/Mike Hartinger -- [https://drive.google.com/file/d/1t4fmiiZP9wdJ-40TISEC7BuicEd64m7W/view?usp=sharing Results from Sonification and Citizen Science of Magnetospheric ULF waves]<br />
<br />
<br />
'''EMIC wave generation, propagation, and interactions''': 3:30-5:00, Monday, June 18 (discussion leaders: Alexander Drozdov and Maria Usanova)<br />
[https://drive.google.com/open?id=15rjO2UxK8sqdOfHXunDSLv5q-z51vwuD Session Summary]<br />
<br />
*1. Dedong Wang -- EMIC wave observations from Van Allen Probes and MMS<br />
<br />
*2. Mark Engebretson -- [https://drive.google.com/file/d/1jkhN45ezaeQyeAA7HmVuYOF_izjAMYra/view?usp=sharing Van Allen Probes, and ground based magnetometer observations of EMIC waves associated with a modest interplanetary shock]<br />
<br />
*3. Maria Usanova -- MMS Observations of Harmonic Electromagnetic Cyclotron Waves<br />
<br />
*4. Naritoshi Kitamura -- Direct measurements of energy transfer from hot H+ to EMIC waves by MMS<br />
<br />
*5. Bruce Fritz -- ELF Whistler Dependence on a Sunlit Ionosphere<br />
<br />
*6. Chae-Woo Jun -- EMIC waves associated with/without the injection inside/outside the plasmapause<br />
<br />
*7. Hyomin Kim -- Injection-associated EMIC waves<br />
<br />
*8. Sebastian Cervantes -- EMIC wave parameterization in radiation belt reanalysis<br />
<br />
*9. Maria Usanova -- Long-term correlation of EMIC wave activity and radiation belt flux variations<br />
<br />
*10. Alexander Drozdov -- The effects due to the EMIC waves in the VERB code modeling<br />
<br />
<br />
'''ULF wave modeling challenge, joint with MMV FG''': 3:30-5:00, Wednesday, June 20<br />
<br />
*1. Brief ULF wave poster overviews (Thursday posters)<br />
<br />
*2. Mike Hartinger: [https://drive.google.com/file/d/1g2cL_qaDbASLH5DoJ_auJKQCbG96sdQn/view?usp=sharing ULF wave modeling challenge event overview, discussion of challenge targets (continuing during session)]<br />
<br />
*3. Mariko Teramoto: ARASE ULF wave observations during challenge event<br />
<br />
*4. Sam Califf: [https://drive.google.com/file/d/1CvbVG2Dp8e6RokJE0501L8-LU9ipdUFT/view?usp=sharing GOES-14 and 16 observations during the ULF wave challenge event, Data Discussion]<br />
<br />
*5. Toshi Nishimura: [https://drive.google.com/file/d/1cavbwNU4LoAigIsGvGF_UtiTaM97dFtP/view?usp=sharing PFISR measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*6. Dogacan Su Ozturk: [https://drive.google.com/file/d/1MmP3D_4eeJbEVJzUyx8fAtFsG3b0grzy/view?usp=sharing The modeling study of the 27 March 2017 Event] <br />
<br />
*7. Xiaochen Shen: GEM Challenge Event: ULF wave-related electron and proton precipitation/negative dynamic pressure pulse driven EMIC wave<br />
<br />
*8. Tetsuo Motoba: [https://drive.google.com/file/d/1544ngYBXat-zUC1gZqo0lMVUZtYqxUqH/view?usp=sharing Auroral measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*9. Others discuss when their figures/summary plots in event overview pdf are presented…<br />
<br />
== 2018 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2018 mini-GEM] workshop<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF modulation of the aurora, Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
This session focuses on understanding a variety of mechanisms responsible for ULF modulations of the aurora. Eric Donovan will give a 30 minute invited presentation, with the rest of the session open for presentations and discussion on this topic. We welcome discussion of ULF aurora generation mechanisms and the types of conjunctions, observations, and models needed to understand the zoo of ULF auroral modulations. We also welcome discussion of upcoming observation campaigns/satellite conjunctions that would be particularly useful for ULF wave studies.<br />
<br />
*1. Eric Donovan<br />
*2. Tetsuo Motoba<br />
*3. Slava Pilipenko<br />
*4. Boyi Wang / Toshi Nishimura<br />
*5. Open discussion<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF wave modeling challenge and research highlights'''<br />
The first part of the session is for updates on the idealized ULF wave modeling challenge and potential 2019 GEM sessions. The next part of the session is for observation/model presentations relevant to the 27-28 May 2017 ULF wave challenge event and final selection of the modeling challenge targets – all types of models and observations welcome. The last part of the session will be open for 1 slide ULF wave modeling and observation research highlights. <br />
<br />
*1. [https://drive.google.com/file/d/1vqxxn3gYXfzDKABe9yRwMgR8vbKRua_j/view?usp=sharing 2019 GEM session ideas] (Mike Hartinger)<br />
*2. Idealized Modeling Challenge (Lutz Rastaetter)<br />
*3. ULF wave modeling challenge event updates: Rob Redmon/Sam Califf/Mike Hartinger (GOES magnetometer observations), Yoshi Miyoshi (Arase magnetic field observations), [https://drive.google.com/file/d/1B6DGHvAzUhBG79eUJWPsUD2BSjGhQrrw/view?usp=sharing Hyomin Kim (wave-particle interaction)], [https://drive.google.com/file/d/180iaBGrbCPf1rYy6uVZn8OsLTOFREqsD/view?usp=sharing Dong Lin (LFM simulations)]<br />
*4. General ULF wave modeling: [https://drive.google.com/file/d/10gUKitjDPnbV_g9r9CAHDFeE365wUQQd/view?usp=sharing Yaireska Collado-Vega (vortex identification/surface waves)], [https://drive.google.com/file/d/1kkGlYKoYHr7XZf5nT3kaXITUD3tpNynJ/view?usp=sharing Alex Degeling (ULF wave radiation belt interactions)] <br />
*5. Research highlights (1-slide): Rualdo Soto (Van Allen Probes and Cluster satellites’ observations of Pc 5 (mHz) magnetic pulsations), [https://drive.google.com/file/d/1V_Joz3psBQbCBoVKRYaOKdKIEoZ72WgQ/view?usp=sharing Xueling Shi (SuperDARN ULF waves)], Martin Archer (magnetopause surface eigenmodes), [https://drive.google.com/file/d/1Mmi3VfERKswG3dpYidVUgOQra2UG-9s2/view?usp=sharing Martin Archer (sonification)]<br />
<br />
== 2019 GEM meeting schedule ==<br />
<br />
UMEA will hold [https://drive.google.com/file/d/1KmH9XqxrisGH_g4s0ny7QDkutmv7tKlr/view?usp=sharing six sessions] at the 2019 GEM meeting, four joint with other focus groups. <br />
<br />
'''Recent advances in ULF wave research: Modeling''': 3:30-5:00, Monday, June 24 New Mexico room, joint with MMV. <br />
Discussion of advances in ULF wave research, with focus on modeling and modeling challenges (e.g., boundary conditions, grid resolution, missing physics). This includes models of the effects of ULF waves on inner magnetosphere dynamics and wave-particle interactions. We particularly encourage presentations focused on the ULF wave modeling challenge, including data-model comparisons for the 27-28 May 2017 challenge event.<br />
*Mike Hartinger, [https://drive.google.com/open?id=1Drkq9epsQWY4AjpV1EF-8Ci_kaKyN2jk FG updates]<br />
*Jesper Gjerloev, SuperMAG ULF updates<br />
*Tetsuo Motoba, High-time resolution SuperMAG ULF data products<br />
*Lutz Rastaetter, ULF wave modeling challenge<br />
*Maulik Patel, MHD test particle simulations of the 16 July 2017 shock compression of the dayside magnetopause <br />
*Bob McPherron, Pi 2 pulsations during the storm of May 27-29 2017, The Statistics of Pi 2 Pulsation Occurrence during a Major Magnetic Storm<br />
*Dong Lin, LFM simulations of surface waves during challenge event<br />
<br />
'''The ULF response to dayside transients with different temporal/spatial scales''': 10:30-12:00, Wednesday, June 26 Santa Fe room, discussion leader: Tom Elsden, joint with Dayside Kinetics and IHMIC. <br />
Dayside transient phenomena associated with kinetic scale processes cause a variety of ULF wave behaviour in the magnetosphere and further, contribute to significant magnetospheric asymmetries. The aim of this session is to bring together the expertise of the three focus groups listed above, to answer outstanding questions at the overlap of these disciplines. It is hoped that such a discussion should prove fruitful enough to generate a JGR commentary paper in this area. With this in mind, speakers in this session are encouraged to give their views as to the current state of the subject area, and how outstanding problems may be addressed in the future.<br />
* Tom Elsden - Session introduction and goals<br />
* Ferdinand Plaschke (invited) - An overview of dayside transients causing ULF waves<br />
* Tom Elsden - 3D ULF wave modeling with MHD<br />
* Boyi Wang - The role of magnetosheath high-speed jets in triggering magnetospheric Pc5 ULF waves<br />
* Bob Lysak - Ionospheric asymmetries and quarter-wave modes<br />
* Xueling Shi - Conjugate Observations of ULF Waves during an Extended Period of Radial IMF<br />
* Michael Hartinger - Localized magnetopause surface wave activity and [https://drive.google.com/open?id=1d8lDB-FPGa6VErL37aZz3xZSgpNvxbk0 modeling challenges]<br />
* Discussion<br />
<br />
'''ULF wave modeling challenges associated with Magnetosphere-Ionosphere-Thermosphere Coupling''': 3:30-5:00, Wednesday, June 26 Lumpkins Ballroon South, joint with IEMIT, discussion leader Doga Ozturk. <br />
ULF waves play important roles in M-I-T coupling, driving current systems that can lead to I-T system heating and geomagnetically induced currents. This session aims to bring together researchers from the ULF wave and M-I-T coupling research communities to discuss challenges associated with realistically modeling M-I-T coupling processes associated with these waves. The session will begin with a discussion of the ULF wave challenge event; comparisons between modeled / observed (PFISR) conductivities and modeled/observed ULF wave properties will be presented, and the community will be invited to discuss explanations for model/observation differences. The rest of the session is open for short presentations on ULF wave modeling challenges related to M-I-T coupling, including topics such as specifying conductivity and effect of conductivity on wave properties, effect of ionospheric boundary conditions in global simulations, boundary conditions and feedback between magnetosphere and ionosphere, capturing role of waves in ionospheric-thermospheric heating.<br />
# (Invited) Boyi Wang: Ionospheric modulation by Pc5 ULF waves and wave structure detected by PFISR<br />
# (Invited) Xiaojia Zhang / Anton Artemyev: ULF modulation of VLF waves and precipitation<br />
# Doga Ozturk: Update from GEM/CEDAR joint session, [https://drive.google.com/open?id=1WsSf4PFHiBo_iZ3za-bhUWKHFJd4MNQX ULF Wave activity and Meso-Scale electric field variability at high-latitude I-T system]<br />
# Anatoly Streltsov: ULF waves generated by the MI interactions near the plasmapause<br />
# Mergen Alimaganbetov: ULF waves observed in space and on the ground at high and low latitudes<br />
# Mark Engebretson: [https://drive.google.com/open?id=16WbDl3rnuehoifUqFj4oMw_Tn5WhEFlU Multi-Instrument Observations of Nighttime Impulsive Magnetic Events]<br />
# Bob Lysak: Modeling ionospheric conductance and ground magnetic fields<br />
# Yan Song: ULF wave, M-I coupling and Auroral formation.<br />
<br />
[https://drive.google.com/open?id=1wGpZPk086Zs54uWGtYiRjByPmVCFnsSv '''EMIC waves''']: 10:30-12:00, Thursday, June 27 New Mexico room, joint with Radiation Belt. <br />
The generation mechanisms of Electromagnetic Ion Cyclotron (EMIC) waves, their effects on energetic electrons and ions, and their propagation through the magnetosphere-ionosphere system are challenging topics that involve multiple GEM research areas. Despite several years of observations and improved global wave statistics, there are many unresolved questions that limit further investigation, modeling and prediction of dynamical processes in the inner magnetosphere involving EMIC waves. Hence, we invite short presentations that discuss recent findings in different areas of EMIC wave research and identify observations/models most needed to address unresolved questions.<br />
*Robert Allen, Outer magnetospheric EMIC wave source regions characterized by Cluster<br />
*Sarah Vines, EMIC waves in the outer magnetosphere: Observations of an off-equator source region<br />
*Justin Lee, [https://drive.google.com/open?id=1xlJfppvWgOC_JHy6QgPpptcI3GjkYuLC EMIC wave observations by MMS] <br />
*Chao Yue, The relationship between EMIC wave properties and proton distributions based on Van Allen Probes observations<br />
*Kristine Sigsbee, Simultaneous EMIC Wave Observations During a Van Allen Probes Conjunction<br />
*Hyomin Kim, [https://drive.google.com/open?id=1UmmYHxyIcH2FfQmRnffGNnCUNjH8S5qQ Observations of Particle Loss due to Injection-Associated EMIC Waves]<br />
*Yuri Shprits, Dips in PSD and how they are related to EMIC wave scattering<br />
*Richard Denton, Electromagnetic ion cyclotron waves in the dipole magnetosphere and pitch angle scattering of sub-MeV relativistic electrons by those waves<br />
*Qianli Ma, Pitch angle scattering of radiation belt electrons due to statistical EMIC wave spectra <br />
<br />
'''Recent advances in ULF wave research: Observations and HGSO coordination for ULF wave studies''': 1:30-3:00, Thursday, June 27 New Mexico room. <br />
Discussion of recent advances in ULF wave research, with focus on observations and a general discussion of Heliophysics/Geospace System Observatory coordination for ULF wave studies. We particularly encourage presentations describing (1) past or upcoming satellite conjunctions, (2) new data analysis tools, and/or (3) instrumentation/operation modes of interest to the ULF wave research community.<br />
*Seth Claudepierre/Matina Gkioulidou (invited), [https://drive.google.com/open?id=1bjENFjvkWSjLYA_EfFuTxhCyKtVlk7c1 Van Allen Probes: End of Mission and ULF wave studies]<br />
*Tetsuo Motoba, SuperMAG ULF wave tools<br />
*Sarah Vines, Determining EMIC wave vector properties through multi-point measurements: The wave curl analysis<br />
*Aaron Breneman, [https://drive.google.com/open?id=1NHlf9I_VV6vkx9id_NL4gE6YhEsSRxkG BARREL precipitation during solar wind driven ULF wave events] <br />
*Anatoly Streltsov, Effect of the Hall conductivity on generation of ULF waves<br />
*Mohammad Barani, [https://drive.google.com/open?id=1sCMVi0pbWsggpUUnotdl-4LO_hfGGFEc Estimating the Azimuthal Mode Structure of ULF Waves Based on Multiple GOES Satellite Observations]<br />
*Kazue Takahashi, L versus time structures of ground magnetic pulsations<br />
*Chih-Ping Wang, Earthward propagation of Pi2 waves<br />
<br />
'''ULF waves driven by wave-particle interactions and instabilities''': 3:30-5:00, Thursday, June 27 Lumpkins Ballroon South, discussion leaders: Xueling Shi and Hyomin Kim. <br />
Many ULF wave modes are closely related to instabilities and wave-particle interactions inside the magnetosphere: poloidal mode waves associated with particle injections, mirror/drift-mirror modes, buoyancy waves… These waves are often discussed in different contexts and in different GEM sessions. In addition, there have been relatively few studies of modeling internally generated ULF waves. The purpose of this session is to bring together modelers and observers to discuss the underlying processes that drive/damp these waves, their impact(s) on the M-I system (ring current, radiation belt, ionosphere,…), and the models/observations needed to better understand wave dynamics.<br />
*Xuzhi Zhou (invited), Acceleration of relativistic electrons by global-scale ULF waves<br />
*Tomotsugu Yamakawa (invited), [https://drive.google.com/open?id=1PEsq7oWVeXwwXn3JvE5ZvWQIIjfXwKRB Simulation of the excitation of storm-time Pc5 ULF waves by ring current ions based on the drift-kinetic model]<br />
*Frank Toffoletto, Normal Mode Analysis of Buoyancy Waves <br />
*Peter Chi, Observations of High-m Poloidal Waves along Magnetospheric Field Lines<br />
*Mike Hartinger, [https://drive.google.com/open?id=17do2Jxy01SJPmOloBxzTPID9ZzqaPGZI Observations of wave-particle interactions using MagEIS ultra-high resolution energy channels]<br />
*Jiang Liu, Ultralow Frequency Waves Deep Inside the Inner Magnetosphere Driven by Dipolarizing Flux Bundles, and their interaction with electrons<br />
*Kyle Murphy, TBD<br />
<br />
== 2019 Mini-GEM schedule ==<br />
UMEA will hold one session at the [https://gemworkshop.org/ 2019 mini-GEM] workshop<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 8, 2019, Nevada Room<br />
<br />
'''ULF wave modeling challenge event, HGSO coordination, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge and potential 2020 GEM sessions. The next part of the session is open for ULF wave research presentations discussing the ULF wave modeling challenge event or current/upcoming observation campaigns that are particularly useful for ULF wave studies. The last part of the session will be open for 1 slide ULF wave research highlights.<br />
<br />
*Mike Hartinger, [https://drive.google.com/open?id=1eQQc07g7nCTEGNwaTGesQx4ymIU6m815 UMEA updates and proposed sessions for 2020 GEM workshop]<br />
*Dong Lin, [https://drive.google.com/open?id=1SqiD1u69eyKNzLyrtvTWbMK05L5OrkrO LFM Simulations of ULF wave modeling challenge event]<br />
*Mohammad Barani, [https://drive.google.com/open?id=1fQAossqjQ-aBuGIBhDIW6I0_WEtHdQsF High-fidelity ULF wave azimuthal mode number structure estimation using MMS magnetometer observations], [https://www.youtube.com/watch?reload=9&v=W5Vya8pCjNE&t=1s link to related presentation on YouTube]<br />
*Chih-Ping Wang, [https://drive.google.com/open?id=19ugyLwyIp4YRuLpDuzT330IdbbFppQcr Inward propagation of Pi2 wave from plasma sheet to inner magnetosphere: THEMIS-GOES conjunctions]<br />
*Walk-ins<br />
<br />
== 2020 VGEM schedule ==<br />
UMEA will hold two sessions at the [https://gemworkshop.org/ 2020 Virtual GEM] workshop<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave modeling challenge event'''<br />
(Hosted by Xueling Shi)<br />
The first part of the session is for updates on research related to the challenge event (27-29 May 2017 storm): All modeling and observation talks welcome as long as they're related to this event. The last part of the session will be for short research highlights and oral summaries of posters.<br />
<br />
*Mike Hartinger (10 minutes), [https://drive.google.com/file/d/1Z5-g7-f-iKfpuWD03WVkA3Q2Rb9mbQfe/view?usp=sharing 2020 UMEA updates and overview of challenge event] <br />
*Simone Di Matteo (15 minutes), [https://drive.google.com/file/d/1acsSyIszg95muYurOkn0RmW0btblS3Ja/view?usp=sharing On some features characterizing the plasmasphere–magnetosphere–ionosphere system during the geomagnetic storm of 27 May 2017] <br />
*Bob McPherron (15 minutes), [https://drive.google.com/file/d/1pnqs49KamZF2BLgMdaoOroktmkBNnj1c/view?usp=sharing ULF wave activity at synchronous orbit during the May 27-29, 2017 Magnetic storm]<br />
*Boyi Wang (15 minutes), Ionospheric modulation by storm-time Pc5 ULF waves and wave structure detected by PFISR-THEMIS conjunctions<br />
*Lutz Rastaetter (15 minutes), [https://drive.google.com/file/d/1H9nTOrpQHX0NEau1eSktWjWM0KYbyfnM/view?usp=sharing Idealized ULF wave modeling challenge: high-resolution runs] <br />
*Mark Engebretson (5 minutes), [https://drive.google.com/file/d/1kvWyYe52OkTB7uUmKWRDSO305Jina-Yy/view?usp=sharing Nighttime magnetic perturbation events observed in Arctic Canada: Superposed epoch analysis]<br />
*Jinxing Li (5 minutes), Electron microinjections in association with compressional ULF waves: MMS observations<br />
*Xiaojia Zhang (5 minutes), [https://drive.google.com/file/d/1fKwf0t1ohDZIxF5NPtsgGKNP0cBEqECn/view?usp=sharing Spreading of Magnetopause-Generated Ultra-Low-Frequency Perturbations and the Associated Whistler Modulation] <br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave research highlights'''<br />
These will be contributed talks with priority given to graduate students and postdocs. The rationale is that virtual GEM will not provide the same type of networking opportunities as in-person GEM, and we'd like to balance this somewhat by giving more opportunities to students/postdocs to present their work on ULF waves.<br />
<br />
All presentations are 10 minutes including discussion:<br />
*Rachel Rice, Characteristics of Kelvin-Helmholtz Waves as Observed by MMS<br />
*Dong Lin, Idealized ULF wave simulations with GAMERA-RCM model<br />
*Boyi Wang, The interaction between ions and the ULF waves driven by a foreshock transient<br />
*Jayashree Bulusu, [https://drive.google.com/file/d/1YyRAo0I7Cf4-buxhTBXLxYaTWw7GX6SZ/view?usp=sharing Investigation of Pi2s during super quiet conditions from low and mid-latitudes]<br />
*Changzhi Zhai, High-m Poloidal ULF Wave Signatures in GPS TEC Data<br />
*Simone Di Matteo, [https://drive.google.com/file/d/1yYaidiu7O4a0Z8PeQXELiyatB03hJQyX/view?usp=sharing Power Spectral Density Background Estimate and Signal Detection via the Multitaper Method] <br />
*Yixin Hao, [https://drive.google.com/file/d/1iIf5QpLE9t7IThiIPNwhCoRHrbFDoR8R/view?usp=sharing Simultaneous observations of localized and global drift resonance]<br />
*Mohammad Barani, [https://drive.google.com/file/d/1it2y8JXJzrbjmt56MWia7ffbei63gIwC/view?usp=sharing Effects of realistic mode number structure on radial diffusion estimation]<br />
<br />
== 2021 Virtual Mini-GEM schedule ==<br />
UMEA will hold one session at the Virtual Mini-GEM Worskhop.<br />
<br />
'''Time''': 12:00-14:00 US Eastern Time, Friday, January 22, 2021<br />
<br />
'''ULF wave modeling challenge event, planning for 2021 GEM meeting, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge event, including an invited talk by Naoko Takahashi. The next part of the session will be for open discussion on potential 2021 GEM sessions. The final part of the session will be open for ULF wave research highlights. <br />
*Mike Hartinger, Brief Introduction to Challenge event<br />
*Naoko Takahashi, Relative contribution of ULF waves and whistler-mode chorus to the radiation belt variation during May 2017 storm<br />
*Ian Kelley, GPS TEC response during the ULF wave challenge event<br />
*Mike Hartinger, ULF wave geoelectric fields during the challenge event<br />
*All, Planning for 2021 GEM sessions<br />
*Bob Lysak, FLRs in Jupiter's magnetosphere<br />
*Toshi Nishimura, Upcoming conjunctions for ULF wave studies<br />
*Toshi Nishimura, PFISR and all-sky imager observations of Pc5 ULF waves during substorms<br />
*Francesco Lena, Detection of Hertz Frequency Multiharmonic Field Line Resonances at Low-L (L=1.1–1.5) During Van Allen Probe Perigee Passes<br />
<br />
== 2021 VGEM schedule ==<br />
UMEA will lead four sessions at the [https://gemworkshop.org/ 2021 Virtual GEM] workshop.<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''Recent Advances in ULF Wave Research'''<br />
This session will start with a short update on the ULF wave modeling challenge. The rest of the session will be for recent advances in ULF wave research, with priority given to presentations (1) with data or modeling results related to the challenge event (27-28 May 2017) or (2) discussions of ULF wave data-model comparisons.<br />
<br />
*Michelle Salzano, IPDP-Pi1B - modeling drift shell splitting<br />
*Yangyang Shen, Tens to hundreds of keV electron precipitation driven by kinetic Alfven waves during an electron injection<br />
*Chih-Ping Wang, Statistical results for Pi2 waves associated with the plasma sheet BBFs observed by THEMIS-RBSP pair with RBSP inside or outside the plasmasphere<br />
*Tom Elsden, Modelling the Varying Location of Field Line Resonances During Geomagnetic Storms<br />
*Denny Oliveira, Factors controlling shock-induced magnetospheric ULF waves<br />
*Short Oral Summaries of Posters<br />
*Open Discussion<br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''The Future of ULF Wave Research'''<br />
This session will begin with a review of the ULF wave FG’s original goals, research topics covered in the last 5 years and related activities, and unresolved questions and research objectives. The remainder of the session is open for 1-2 slide presentations on major unresolved questions in ULF wave research. We particularly encourage presentations (1) exploring topics that could be addressed by current/future GEM FG or decadal survey white paper, (2) highlighting major questions or obstacles preventing progress in ULF wave research (e.g., missing data in a critical region, missing theory/modeling component), (3) discuss how ULF wave researchers can best take advantage of future satellite missions, ground-based infrastructure, computing advances/big data/AI, and modeling/theory advances. <br />
<br />
*Mike Hartinger, Retrospective on the ULF wave focus group<br />
*Martin Archer, Surface Waves<br />
*Tom Elsden, 3D FLRs<br />
*Solene Lejosne, Wave-Particle Interactions<br />
*Alexander Drozdov, Radial Diffusion<br />
*Ayomide Olabode and Michelle Salzano, Ground Magnetic Perturbations<br />
*Mark Engebretson, Pc1 waves / MMS k-vector technique<br />
*Xueling Shi, Applications of TEC observations<br />
*Open discussion, walk-in presentations welcome<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Tuesday, July 27, 2021<br />
<br />
'''ULF Wave M-I Coupling Processes'''<br />
This session is joint with the IEMIT FG. The session will begin with a review of the role of ULF waves on M-I coupling. The remainder of the session is open for 5-min presentations on ULF wave topics related to M-I coupling, e.g., auroral acceleration, particle precipitation, geomagnetic perturbations, GICs, etc. More questions and discussions will be left to the end.<br />
<br />
*Hui Zhang, Role of ULF waves in M-I coupling<br />
*Chaosong Huang, Global Pc5 pulsations<br />
*Tetsuo Motoba, Daytime Pc5 Diffuse Auroral Pulsations and Their Association With Outer Magnetospheric ULF Waves<br />
*Anton Artemyev, ULF driven precipitations as observed by ELFIN<br />
*Mark Engebretson, Magnetic perturbation events related to GICs<br />
*Denny Oliveira, IP shock impact angle control of local intense dB/dt variations during substorm<br />
*Xueling Shi, Sources of Intense Geoelectric Fields in the United States<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Friday, July 30, 2021<br />
<br />
'''Coupling Between ULF Waves and Cold Plasma'''<br />
This session is joint with the Cold Plasma FG. The session will begin with a review of mechanisms that couple cold plasma populations to ULF waves by Richard Denton. The remainder of the session is for contributed presentations describing (1) recent advances in our understanding of cold plasma interactions with ULF waves and (2) outstanding questions that could be discussed in future cold plasma FG sessions.<br />
<br />
*Richard Denton, Coupling Between ULF Waves and Cold Plasma<br />
*Alex Degeling, Modeling ULF Waves Trapped in a Plasmaspheric Density Plume <br />
*Eun Hwa Kim, Can Electromagnetic Ion Cyclotron Waves Propagate to the Ground?: 2D Full Wave Simulation<br />
*Bob Lysak, Relation of plasmaspheric cavity modes to Pi2 pulsations in an asymmetric plasmasphere<br />
*Yixin Hao, ULF wave-cold plasma interaction<br />
*Mike Hartinger, The relationship between global ULF wave properties and radial Alfven speed profile</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=FG:_ULF_Wave_Modeling,_Effects,_and_Applications&diff=5351FG: ULF Wave Modeling, Effects, and Applications2021-07-23T01:06:46Z<p>Mdhartin: /* 2021 VGEM schedule */</p>
<hr />
<div>''Focus Group Leaders:''<br />
* Michael Hartinger, Space Science Institute (mhartinger@spacescience.org)<br />
* Kazue Takahashi, Applied Physics Laboratory<br />
* Alexander Drozdov, UCLA<br />
* Maria Usanova, University of Colorado<br />
* Brian Kress, University of Colorado and NOAA-NCEI<br />
* Xueling Shi, Virginia Tech<br />
<br />
Focus Group term: 2016-2021<br />
<br />
Join the discussion on [https://gemworkshop.slack.com/archives/C016U8PA7TJ Slack], including discussion related to the 2020 GEM and 2021 miniGEM meetings.<br />
<br />
== Science Questions ==<br />
Our group aims to address the following broad science questions: What mechanisms excite ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in Magnetosphere-Ionosphere coupling?<br />
<br />
== Focus Group Proposal ==<br />
[http://gem.epss.ucla.edu/mediawiki/FGproposals/Hartinger-UMEA.pdf ULF Wave Modeling, Effects, and Applications (UMEA)] (December 2015)<br />
<br />
== ULF wave modeling challenge ==<br />
<br />
One part of the ULF wave modeling challenge involves running several global MHD simulation codes with identical, idealized solar wind driving conditions (sinusoidal density variation), then comparing the resulting global ULF wave properties and discussing differences in the context of differing boundary conditions, grids, etc. More details can be found here: [http://ccmc.gsfc.nasa.gov/challenges/ULF/ ULF wave modeling challenge at CCMC]<br />
<br />
Another part of the ULF wave modeling challenge involves data-model comparisons during specific events. At the 2017 GEM and mini-GEM meetings several [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing challenge events] were proposed, including two [https://drive.google.com/open?id=1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI 2017 events].<br />
<br />
We have selected the [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing 27-28 May 2017 storm event] for the ULF wave modeling challenge due to favorable solar wind coverage and availability of numerous satellites (MMS, ARASE, THEMIS, RBSP, Cluster, GOES, ...) and ground-based observations for global context and multi-point wave observations. We will be continuously updating this [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing overview presentation] with observation and modeling results. Model output and observations for the challenge event - including global densities from the NURD model - can be obtained [https://drive.google.com/drive/folders/1Bk9vJtbEHd-vSuYqr3UG9NGCqaBn69hw?usp=sharing here]. If you would like to add additional observations/model output to the google drive or overview pdf, please contact the co-chairs.<br />
<br />
CCMC has run several global MHD simulation codes using the driving conditions of the ULF wave challenge event. At the 2019 GEM meeting and future GEM/mini-GEM meetings, we plan data-model comparisons to identify where model/data don't agree and discuss these differences in the context of incorrect boundary conditions (e.g., compare model ionosphere to local PFISR-derived conductivities), missing physics, numerical dissipation, etc. Please contact CCMC/Lutz Rastaetter and model developers before using this simulation output in publications:<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_SWMF_040319_1 Space Weather Modeling Framework simulation], IMF Bx=0 (other parameters as in event). Full 2-day event, 3D output every 15s, virtual ground magnetometer. If you haven't used CCMC visualization tools before, be aware that you shouldn’t submit multiple visualization requests at the same time, as this could crash CCMC server for these large 3D files. Instead, request a batch process or wait for the first visualization request to complete. The easiest/fastest visualization is to follow the link above and scroll down until you see the virtual ground magnetometer and satellites list. Click on the magnetometer/satellite of interest, then select which parameter(s) to display/download. <br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_1 OpenGGCM run 1] – IMF Bx = -7 nT. Smaller time range available on 28 May 0400-1000, only virtual ground magnetometer from POKR/CMO available now. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_1 Full results including virtual satellite.]<br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_2 Open GGCM run 2] – IMF Bx = 0 nT (as in SWMF simulation). Same format as other OpenGGCM simulation. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_2 Full results including virtual satellite.]<br />
<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_LFM_051519_2 LFM simulation]<br />
<br />
== ULF wave HGSO event coordination ==<br />
Our group is helping coordinate analysis of conjunction events for ULF wave studies, including requesting instrument operation modes favorable for ULF wave analysis.<br />
<br />
The [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] 0400-0800 UT conjunction event includes several satellites (THEMIS, Cluster, Van Allen Probes, GOES, Geotail, FIREBIRD, METOP, POES, DMSP) in the pre-midnight sector during a conjunction with the Poker Flat Incoherent Scatter Radar and several SuperDARN radars. PFISR was operating throughout the conjunction, several SuperDARN radars were in high resolution sampling modes, and several satellites were operating in fast survey/burst mode. The conjunction is favorable for modeling and observation studies of magnetosphere-ionosphere coupling via ULF waves, wave-particle interactions, global ULF wave properties, and many other topics. [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing This pdf] summarizes preliminary results<br />
<br />
Several web-based tools are available for identifying future conjunctions, including [https://ergsc.isee.nagoya-u.ac.jp/analysis/index.shtml.en upcoming conjunctions between ARASE and Van Allen Probes/ground] and conjunctions between [https://swarm-aurora.com/conjunctionFinder/ SWARM/all-sky cameras].<br />
<br />
'''There are also many specialized, web-based tools for ULF wave analysis (please contact FG co-chairs to add to this list):'''<br />
<br />
*SuperMAG ground-based magnetometer [http://supermag.jhuapl.edu/rBrowse/?start=2001-01-30T05%3A00%3A00.000Z&step=14400 global ULF wave plots]<br />
<br />
*CARISMA ground-based magnetometer [http://www.carisma.ca/carisma-data/fgm-pc1-power-spectra Pc1 power spectra] and [http://www.carisma.ca/carisma-data/fgm-pc5-power-spectra Pc5 power spectra]<br />
<br />
*Augsburg College/UNH Arctic and Antarctic [http://space.augsburg.edu/searchcoil/index.html search coil magnetometer survey plots] <br />
<br />
*Augsburg College (hosted by ViRBO) [http://virbo.org/Augsburg/ULF ULF wave index]<br />
<br />
*[http://vt.superdarn.org/tiki-index.php?page=DaViT+DynFFT SuperDARN wave analysis] and [http://vt.superdarn.org/tiki-index.php?page=Data+Inventory identification of high time-resolution SuperDARN beams]<br />
<br />
*THEMIS satellite fluxgate magnetometer [http://themis.ssl.berkeley.edu/summary.php?year=2014&month=05&day=11&hour=0024&sumType=thmfgmdyn&type=themislinfgl wave survey plots]<br />
<br />
*National Institute of Polar Research inter-hemispheric comparisons of Syowa/Iceland [http://iugonet0.nipr.ac.jp/web/induction/ induction magnetometer spectra]<br />
<br />
*[http://mist.nianet.org/Satellite_Conjunctions/ Inter-hemispheric comparisons] during satellite conjunctions with Arctic(DTU Space)/Antarctic(Virginia Tech) magnetometers<br />
<br />
*[http://kho.unis.no/uaf_msp.htm Meridian Scanning Photometer plots] from [http://kho.unis.no/ UNIS/Kjell Henriksen Observatory], for context on open-closed boundary and ULF modulation of the aurora<br />
<br />
== Summary Reports for GEM workshops ==<br />
[https://drive.google.com/file/d/1QLH8FcKm3-f25aLwoetOuYJGZu5sPgN3/view?usp=sharing 2016 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1SRIv6Gn-NNnqGPHGvjvZQcdDml2GQpv_/view?usp=sharing 2017 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1clzFHWrxC9hvYf9kECJx4bPn9xn8WwsG/view?usp=sharing 2018 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1_fLwZFCLBTBHnq8HkaFPWUvaIY81E-t0/view?usp=sharing 2019 UMEA FG report]<br />
<br />
== 2016 Mini-GEM schedule ==<br />
UMEA will hold one session at the [http://www.cpe.vt.edu/gem-mini/ mini-GEM workshop]: ULF wave modeling, effects and applications updates<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 11, 2016<br />
<br />
'''Location''': Oregon Room, Holiday Inn Golden Gateway<br />
<br />
'''Schedule:'''<br />
<br />
'''First Half (12:00 – 12:45): 3 talks (~15 min each):'''<br />
<br />
*1. Mike Hartinger -- [http://gem.epss.ucla.edu/mediawikiwiki/images/7/7c/UMEAoverview_miniGEM2016.pdf Overview of UMEA current activities, discussion of future plans]<br />
<br />
*2. Lutz Rastaetter -- ULF wave modeling challenge at CCMC<br />
<br />
*3. Robert Rankin -- Modeling the global properties and ground-based signatures of ULF waves and wave-particle interactions<br />
<br />
'''Second Half (12:45 – 13:30): (5 minutes each, 1-2 slides, order of talks may change):'''<br />
<br />
*1. Xueling Shi -- SuperDARN THEMIS Mode Data Tracker & ULF Wave Detection<br />
<br />
*2. Richard Denton -- Mass density inferred from Alfven wave frequencies measured by RBSP<br />
<br />
*3. Lars Daldorff -- ULF waves, particle transport and energization in global MHD simulations with plasmasphere<br />
<br />
*4. Alexander Drozdov -- Dependence of radiation belt simulations to assumed radial diffusion rates tested for two empirical models of radial transport<br />
<br />
*5. Bob Lysak -- Quarter Wavelength Modes<br />
<br />
*6. Walk-ins<br />
<br />
== 2017 GEM meeting schedule ==<br />
UMEA will hold four sessions session at the 2017 GEM meeting<br />
<br />
'''UMEA Update and plans, general discussion of ULF wave modeling and observations''': 10:30-12:15, Monday, June 19, Port VI-VIII<br />
<br />
*1. Michael Hartinger -- [https://drive.google.com/file/d/0B57bC_V89WW6dnBCbmFFSkFURUk/view?usp=sharing UMEA update]<br />
<br />
*2. Toshi Nishimura -- PFISR measurements during the 2 May 2017 HGSO event<br />
<br />
*3. Xueling Shi -- [https://drive.google.com/file/d/0B57bC_V89WW6OUcyNGNWM0piWnc/view?usp=sharing A Survey of Ionospheric ULF Wave Signatures in SuperDARN Data: Occurrence Statistics and Driving Mechanisms]<br />
<br />
*4. Tetsuo Motoba -- Dayside Auroral Pulsations<br />
<br />
*5. Brian Kress and Rob Redmon -- Newly Available GOES 8-16 Particle and Magnetic Field Measurements<br />
<br />
*6. Dick Wolf -- Theory of magnetospheric buoyancy waves<br />
<br />
<br />
'''ULF wave interactions with the radiation belt and ring current populations''': 1:30-3:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Rualdo Soto-Chavez -- Generation of Pc5-ULF wave by the drift-mirror instability<br />
<br />
*2. Zhiyang Xia -- [https://drive.google.com/file/d/0B57bC_V89WW6Y1VQRXJKd3Qya3c/view?usp=sharing Eigenmode analysis of compressional poloidal modes in a self-consistent magnetic field]<br />
<br />
*3. Mark Engebretson -- [https://drive.google.com/file/d/0B57bC_V89WW6QlM3LU9lTVVwZ1E/view?usp=sharing Statistical study of the upper frequency cutoff of helium band EMIC waves observed by the Van Allen Probes]<br />
<br />
*4. Alexander Drozdov -- Radial diffusion and EMIC waves in the long-term simulation and in the case study<br />
<br />
*5. Seth Claudepierre -- Global MHD simulations driven by idealized Alfvenic fluctuations in the solar wind<br />
<br />
*6. Michael Hartinger -- Radiation belt response to large scale, monochromatic ULF waves: LANL-GEO observations<br />
<br />
<br />
'''ULF wave modeling, including CCMC modeling challenge, Joint with MMV''': 3:30-5:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Lutz Rastaetter -- CCMC ULF wave modeling challenge update and challenge events<br />
<br />
*2. Scot Elkington -- [https://drive.google.com/file/d/0B57bC_V89WW6WUxJcGNqbUU2bzA/view?usp=sharing ULF wave activity and diffusion coefficients during QARBM challenge events], [https://drive.google.com/file/d/0B3MAHZknMumcem40dTVyNVRFbE0/view?usp=sharing Ashar F. Ali’s write-up on Event-Specific Radial Diffusion Coefficients Derived Using RBSP EMFISIS and EFW Data]<br />
<br />
*3. Katariina Nykyri -- KHI challenge events<br />
<br />
*4. All -- Open Discussion of Challenge Events<br />
<br />
*5. Doga Ozturk -- Effects of Increased Solar Wind Dynamic Pressure on the Coupled M-I system under different IMF By<br />
<br />
*6. Kazue Takahashi -- Cavity mode Van Allen Probe observations<br />
<br />
*7. Bob Lysak -- Cavity mode models<br />
<br />
*8. Tom Elsden -- [https://drive.google.com/file/d/0B57bC_V89WW6SDNnYjdwSVM3Y3c/view?usp=sharing The Theoretical Foundation of 3D Alfven Resonances: Time Dependent Solutions]<br />
<br />
<br />
'''Magnetosphere-Ionosphere coupling processes associated with localized disturbances caused by dayside kinetic phenomena: Joint with “Dayside Kinetic Processes…” and “Testing proposed links…”''': 3:30-5:00, Tuesday, June 20, Port VI-VIII<br />
<br />
*1. Peter Chi -- Magnetospheric and ionospheric responses to a localized disturbance: The macroscopic view<br />
<br />
*2. Hui Zhang -- Magnetospheric ULF waves generated by foreshock transients<br />
<br />
*3. Hui Zhang -- Modeling challenges in simulating HFA geoeffects<br />
<br />
*4. Boyi Wang -- Optical signatures of dayside ULF waves during magnetosheath high-speed jets<br />
<br />
*5. Katariina Nykyri -- The effect of magnetosheath seed spectrum on KH evolution and associated mass transport<br />
<br />
*6. Kyle Murphy -- A statistical study of discrete ULF wave power observed by GOES<br />
<br />
== 2017 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2017 mini-GEM] workshop<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 10, 2017, Canal/50<br />
<br />
'''ULF wave modeling challenges'''<br />
Discussion of final plans for the CCMC ULF wave modeling challenge with idealized drivers, as well as open discussion of new challenges involving data-model and model-model comparisons during [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing specific events]. Please come with 1-2 slides showing examples of such comparisons, ideas for improving ULF wave models, and/or ideas for specific modeling challenges/sessions relevant to the FG science questions.<br />
<br />
*1. 12:00-12:30 Overview of CCMC ULF wave modeling challenge with idealized driving conditions, description of challenge events and targets proposed during 2017 GEM meeting and November modeling telecon (Michael Hartinger, Lutz Rastaetter)<br />
*2. 12:30-13:30 [https://drive.google.com/file/d/1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI/view?usp=sharing Open discussion of challenge events and targets (Allison Jaynes,] Robert Rankin), select challenge event to be analyzed at 2018 GEM<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 10, 2017, Canal/50<br />
<br />
'''Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
Discussion of HGSO coordination for ULF wave studies. This includes updates on the [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] conjunction event followed by an open discussion of conjunctions and datasets that are particularly useful for ULF wave studies, including upcoming RBSP-ERG-ground conjunctions. Please come with 1-2 slides showing examples of datasets and past/upcoming conjunctions ideal for addressing the FG science questions: What excites ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in MI coupling? We welcome discussion from both modelers and observers of the types of conjunctions and observations that are most needed to address these questions.<br />
<br />
*1. 13:50-14:20 Recently available datasets and conjunctions for ULF wave studies (Chih-Ping Wang, Xueling Shi, Sana Qamar, Rob Redmon)<br />
*2. 14:20-14:35 Updates on 2 May 2017 conjunction event (Toshi Nishimura, Michael Hartinger)<br />
*3. 14:35-15:20 Upcoming ARASE-RBSP conjunctions (Yoshi Miyoshi), Open Discussion of HGSO coordination for ULF wave studies (Toshi Nishimura, Kazue Takahashi)<br />
<br />
== 2018 GEM meeting schedule ==<br />
UMEA will hold [https://drive.google.com/file/d/1uh-ZOICfOBzNs9KLe3saFMnY9P-oqV9R/view?usp=sharing four sessions] at the 2018 GEM meeting. <br />
<br />
'''ULF waves during particle injections and dipolarizations, joint with Dipolarization and Substorm FG''': 10:30-12:00, Monday, June 18<br />
<br />
*1. Discussion of Session Topic<br />
<br />
*2. Bob Lysak -- [https://drive.google.com/file/d/1w8o5aGYbLsIEy2YmaoosF3WNeWTuLE59/view?usp=sharing Ionospheric Conductivity Effects on Pi2 Pulsations]<br />
<br />
*3. Mike Hartinger -- [https://drive.google.com/file/d/1tcJgspMQDkhPPvSTng4eZP7h-j7jvVR7/view?usp=sharing Pi2 waves during an extended period with stable plasmapause location and variable geomagnetic activity]<br />
<br />
*4. Toshi Nishimura -- Ionosphere observations of Pc5 ULF waves during 2018 HGSO conjunctions<br />
<br />
*5. Xueling Shi -- Long-lasting poloidal ULF waves observed by multiple satellite and SuperDARN HF radars<br />
<br />
*6. Jian Yang -- New RCM-I simulation results for buoyancy waves<br />
<br />
*7. Dick Wolf -- [https://drive.google.com/file/d/1vTkH_lmgXCcvkAYU6HgO_R5ZgIdGji3O/view?usp=sharing Theory of Buoyancy Waves] <br />
<br />
*8. Yan Song -- What Causes the Substorm Expansion Phase and Associated ULF Waves?<br />
<br />
<br />
'''Recent advances in ULF wave research''': 1:30-3:00, Monday, June 18 <br />
<br />
*1. [https://drive.google.com/file/d/1ms9kDYlBhCnxti8z9o9Lx8y0PPmkWu_-/view?usp=sharing Overview of focus group goals and recent progress]<br />
<br />
*2. Brief ULF wave poster overviews (Tuesday posters)<br />
<br />
*3. Kazue Takahashi -- Observation of nightside ULF waves by RBSP and Arase<br />
<br />
*4. Tom Elsden -- Broadband Excitation of 3D Alfven Resonances (FLRs) in an MHD Waveguide<br />
<br />
*5. Boyi Wang -- 2-D structure of foreshock driven Pc5 ULF waves observed by the THEMIS satellites and South Pole imager<br />
<br />
*6. Xiaochen Shen -- Foreshock transient-driven ultra-low frequency (ULF) waves with dawn-dusk asymmetry of wave power<br />
<br />
*7. Chih-Ping Wang -- ULF waves possibly driven by tailward propagation of foreshock perturbations<br />
<br />
*8. Allison Jaynes -- [https://drive.google.com/file/d/1EC3yPvda8fA0LUr9qTfszluNDLs6LdHT/view?usp=sharing Fast diffusion of ultra-relativistic electrons in the outer radiation belt: 17 March 2015 storm event]<br />
<br />
*9. Rualdo Soto -- The Drift-Mirror instability in Earth's inner magnetosphere<br />
<br />
*10. Martin Archer/Mike Hartinger -- [https://drive.google.com/file/d/1t4fmiiZP9wdJ-40TISEC7BuicEd64m7W/view?usp=sharing Results from Sonification and Citizen Science of Magnetospheric ULF waves]<br />
<br />
<br />
'''EMIC wave generation, propagation, and interactions''': 3:30-5:00, Monday, June 18 (discussion leaders: Alexander Drozdov and Maria Usanova)<br />
[https://drive.google.com/open?id=15rjO2UxK8sqdOfHXunDSLv5q-z51vwuD Session Summary]<br />
<br />
*1. Dedong Wang -- EMIC wave observations from Van Allen Probes and MMS<br />
<br />
*2. Mark Engebretson -- [https://drive.google.com/file/d/1jkhN45ezaeQyeAA7HmVuYOF_izjAMYra/view?usp=sharing Van Allen Probes, and ground based magnetometer observations of EMIC waves associated with a modest interplanetary shock]<br />
<br />
*3. Maria Usanova -- MMS Observations of Harmonic Electromagnetic Cyclotron Waves<br />
<br />
*4. Naritoshi Kitamura -- Direct measurements of energy transfer from hot H+ to EMIC waves by MMS<br />
<br />
*5. Bruce Fritz -- ELF Whistler Dependence on a Sunlit Ionosphere<br />
<br />
*6. Chae-Woo Jun -- EMIC waves associated with/without the injection inside/outside the plasmapause<br />
<br />
*7. Hyomin Kim -- Injection-associated EMIC waves<br />
<br />
*8. Sebastian Cervantes -- EMIC wave parameterization in radiation belt reanalysis<br />
<br />
*9. Maria Usanova -- Long-term correlation of EMIC wave activity and radiation belt flux variations<br />
<br />
*10. Alexander Drozdov -- The effects due to the EMIC waves in the VERB code modeling<br />
<br />
<br />
'''ULF wave modeling challenge, joint with MMV FG''': 3:30-5:00, Wednesday, June 20<br />
<br />
*1. Brief ULF wave poster overviews (Thursday posters)<br />
<br />
*2. Mike Hartinger: [https://drive.google.com/file/d/1g2cL_qaDbASLH5DoJ_auJKQCbG96sdQn/view?usp=sharing ULF wave modeling challenge event overview, discussion of challenge targets (continuing during session)]<br />
<br />
*3. Mariko Teramoto: ARASE ULF wave observations during challenge event<br />
<br />
*4. Sam Califf: [https://drive.google.com/file/d/1CvbVG2Dp8e6RokJE0501L8-LU9ipdUFT/view?usp=sharing GOES-14 and 16 observations during the ULF wave challenge event, Data Discussion]<br />
<br />
*5. Toshi Nishimura: [https://drive.google.com/file/d/1cavbwNU4LoAigIsGvGF_UtiTaM97dFtP/view?usp=sharing PFISR measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*6. Dogacan Su Ozturk: [https://drive.google.com/file/d/1MmP3D_4eeJbEVJzUyx8fAtFsG3b0grzy/view?usp=sharing The modeling study of the 27 March 2017 Event] <br />
<br />
*7. Xiaochen Shen: GEM Challenge Event: ULF wave-related electron and proton precipitation/negative dynamic pressure pulse driven EMIC wave<br />
<br />
*8. Tetsuo Motoba: [https://drive.google.com/file/d/1544ngYBXat-zUC1gZqo0lMVUZtYqxUqH/view?usp=sharing Auroral measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*9. Others discuss when their figures/summary plots in event overview pdf are presented…<br />
<br />
== 2018 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2018 mini-GEM] workshop<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF modulation of the aurora, Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
This session focuses on understanding a variety of mechanisms responsible for ULF modulations of the aurora. Eric Donovan will give a 30 minute invited presentation, with the rest of the session open for presentations and discussion on this topic. We welcome discussion of ULF aurora generation mechanisms and the types of conjunctions, observations, and models needed to understand the zoo of ULF auroral modulations. We also welcome discussion of upcoming observation campaigns/satellite conjunctions that would be particularly useful for ULF wave studies.<br />
<br />
*1. Eric Donovan<br />
*2. Tetsuo Motoba<br />
*3. Slava Pilipenko<br />
*4. Boyi Wang / Toshi Nishimura<br />
*5. Open discussion<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF wave modeling challenge and research highlights'''<br />
The first part of the session is for updates on the idealized ULF wave modeling challenge and potential 2019 GEM sessions. The next part of the session is for observation/model presentations relevant to the 27-28 May 2017 ULF wave challenge event and final selection of the modeling challenge targets – all types of models and observations welcome. The last part of the session will be open for 1 slide ULF wave modeling and observation research highlights. <br />
<br />
*1. [https://drive.google.com/file/d/1vqxxn3gYXfzDKABe9yRwMgR8vbKRua_j/view?usp=sharing 2019 GEM session ideas] (Mike Hartinger)<br />
*2. Idealized Modeling Challenge (Lutz Rastaetter)<br />
*3. ULF wave modeling challenge event updates: Rob Redmon/Sam Califf/Mike Hartinger (GOES magnetometer observations), Yoshi Miyoshi (Arase magnetic field observations), [https://drive.google.com/file/d/1B6DGHvAzUhBG79eUJWPsUD2BSjGhQrrw/view?usp=sharing Hyomin Kim (wave-particle interaction)], [https://drive.google.com/file/d/180iaBGrbCPf1rYy6uVZn8OsLTOFREqsD/view?usp=sharing Dong Lin (LFM simulations)]<br />
*4. General ULF wave modeling: [https://drive.google.com/file/d/10gUKitjDPnbV_g9r9CAHDFeE365wUQQd/view?usp=sharing Yaireska Collado-Vega (vortex identification/surface waves)], [https://drive.google.com/file/d/1kkGlYKoYHr7XZf5nT3kaXITUD3tpNynJ/view?usp=sharing Alex Degeling (ULF wave radiation belt interactions)] <br />
*5. Research highlights (1-slide): Rualdo Soto (Van Allen Probes and Cluster satellites’ observations of Pc 5 (mHz) magnetic pulsations), [https://drive.google.com/file/d/1V_Joz3psBQbCBoVKRYaOKdKIEoZ72WgQ/view?usp=sharing Xueling Shi (SuperDARN ULF waves)], Martin Archer (magnetopause surface eigenmodes), [https://drive.google.com/file/d/1Mmi3VfERKswG3dpYidVUgOQra2UG-9s2/view?usp=sharing Martin Archer (sonification)]<br />
<br />
== 2019 GEM meeting schedule ==<br />
<br />
UMEA will hold [https://drive.google.com/file/d/1KmH9XqxrisGH_g4s0ny7QDkutmv7tKlr/view?usp=sharing six sessions] at the 2019 GEM meeting, four joint with other focus groups. <br />
<br />
'''Recent advances in ULF wave research: Modeling''': 3:30-5:00, Monday, June 24 New Mexico room, joint with MMV. <br />
Discussion of advances in ULF wave research, with focus on modeling and modeling challenges (e.g., boundary conditions, grid resolution, missing physics). This includes models of the effects of ULF waves on inner magnetosphere dynamics and wave-particle interactions. We particularly encourage presentations focused on the ULF wave modeling challenge, including data-model comparisons for the 27-28 May 2017 challenge event.<br />
*Mike Hartinger, [https://drive.google.com/open?id=1Drkq9epsQWY4AjpV1EF-8Ci_kaKyN2jk FG updates]<br />
*Jesper Gjerloev, SuperMAG ULF updates<br />
*Tetsuo Motoba, High-time resolution SuperMAG ULF data products<br />
*Lutz Rastaetter, ULF wave modeling challenge<br />
*Maulik Patel, MHD test particle simulations of the 16 July 2017 shock compression of the dayside magnetopause <br />
*Bob McPherron, Pi 2 pulsations during the storm of May 27-29 2017, The Statistics of Pi 2 Pulsation Occurrence during a Major Magnetic Storm<br />
*Dong Lin, LFM simulations of surface waves during challenge event<br />
<br />
'''The ULF response to dayside transients with different temporal/spatial scales''': 10:30-12:00, Wednesday, June 26 Santa Fe room, discussion leader: Tom Elsden, joint with Dayside Kinetics and IHMIC. <br />
Dayside transient phenomena associated with kinetic scale processes cause a variety of ULF wave behaviour in the magnetosphere and further, contribute to significant magnetospheric asymmetries. The aim of this session is to bring together the expertise of the three focus groups listed above, to answer outstanding questions at the overlap of these disciplines. It is hoped that such a discussion should prove fruitful enough to generate a JGR commentary paper in this area. With this in mind, speakers in this session are encouraged to give their views as to the current state of the subject area, and how outstanding problems may be addressed in the future.<br />
* Tom Elsden - Session introduction and goals<br />
* Ferdinand Plaschke (invited) - An overview of dayside transients causing ULF waves<br />
* Tom Elsden - 3D ULF wave modeling with MHD<br />
* Boyi Wang - The role of magnetosheath high-speed jets in triggering magnetospheric Pc5 ULF waves<br />
* Bob Lysak - Ionospheric asymmetries and quarter-wave modes<br />
* Xueling Shi - Conjugate Observations of ULF Waves during an Extended Period of Radial IMF<br />
* Michael Hartinger - Localized magnetopause surface wave activity and [https://drive.google.com/open?id=1d8lDB-FPGa6VErL37aZz3xZSgpNvxbk0 modeling challenges]<br />
* Discussion<br />
<br />
'''ULF wave modeling challenges associated with Magnetosphere-Ionosphere-Thermosphere Coupling''': 3:30-5:00, Wednesday, June 26 Lumpkins Ballroon South, joint with IEMIT, discussion leader Doga Ozturk. <br />
ULF waves play important roles in M-I-T coupling, driving current systems that can lead to I-T system heating and geomagnetically induced currents. This session aims to bring together researchers from the ULF wave and M-I-T coupling research communities to discuss challenges associated with realistically modeling M-I-T coupling processes associated with these waves. The session will begin with a discussion of the ULF wave challenge event; comparisons between modeled / observed (PFISR) conductivities and modeled/observed ULF wave properties will be presented, and the community will be invited to discuss explanations for model/observation differences. The rest of the session is open for short presentations on ULF wave modeling challenges related to M-I-T coupling, including topics such as specifying conductivity and effect of conductivity on wave properties, effect of ionospheric boundary conditions in global simulations, boundary conditions and feedback between magnetosphere and ionosphere, capturing role of waves in ionospheric-thermospheric heating.<br />
# (Invited) Boyi Wang: Ionospheric modulation by Pc5 ULF waves and wave structure detected by PFISR<br />
# (Invited) Xiaojia Zhang / Anton Artemyev: ULF modulation of VLF waves and precipitation<br />
# Doga Ozturk: Update from GEM/CEDAR joint session, [https://drive.google.com/open?id=1WsSf4PFHiBo_iZ3za-bhUWKHFJd4MNQX ULF Wave activity and Meso-Scale electric field variability at high-latitude I-T system]<br />
# Anatoly Streltsov: ULF waves generated by the MI interactions near the plasmapause<br />
# Mergen Alimaganbetov: ULF waves observed in space and on the ground at high and low latitudes<br />
# Mark Engebretson: [https://drive.google.com/open?id=16WbDl3rnuehoifUqFj4oMw_Tn5WhEFlU Multi-Instrument Observations of Nighttime Impulsive Magnetic Events]<br />
# Bob Lysak: Modeling ionospheric conductance and ground magnetic fields<br />
# Yan Song: ULF wave, M-I coupling and Auroral formation.<br />
<br />
[https://drive.google.com/open?id=1wGpZPk086Zs54uWGtYiRjByPmVCFnsSv '''EMIC waves''']: 10:30-12:00, Thursday, June 27 New Mexico room, joint with Radiation Belt. <br />
The generation mechanisms of Electromagnetic Ion Cyclotron (EMIC) waves, their effects on energetic electrons and ions, and their propagation through the magnetosphere-ionosphere system are challenging topics that involve multiple GEM research areas. Despite several years of observations and improved global wave statistics, there are many unresolved questions that limit further investigation, modeling and prediction of dynamical processes in the inner magnetosphere involving EMIC waves. Hence, we invite short presentations that discuss recent findings in different areas of EMIC wave research and identify observations/models most needed to address unresolved questions.<br />
*Robert Allen, Outer magnetospheric EMIC wave source regions characterized by Cluster<br />
*Sarah Vines, EMIC waves in the outer magnetosphere: Observations of an off-equator source region<br />
*Justin Lee, [https://drive.google.com/open?id=1xlJfppvWgOC_JHy6QgPpptcI3GjkYuLC EMIC wave observations by MMS] <br />
*Chao Yue, The relationship between EMIC wave properties and proton distributions based on Van Allen Probes observations<br />
*Kristine Sigsbee, Simultaneous EMIC Wave Observations During a Van Allen Probes Conjunction<br />
*Hyomin Kim, [https://drive.google.com/open?id=1UmmYHxyIcH2FfQmRnffGNnCUNjH8S5qQ Observations of Particle Loss due to Injection-Associated EMIC Waves]<br />
*Yuri Shprits, Dips in PSD and how they are related to EMIC wave scattering<br />
*Richard Denton, Electromagnetic ion cyclotron waves in the dipole magnetosphere and pitch angle scattering of sub-MeV relativistic electrons by those waves<br />
*Qianli Ma, Pitch angle scattering of radiation belt electrons due to statistical EMIC wave spectra <br />
<br />
'''Recent advances in ULF wave research: Observations and HGSO coordination for ULF wave studies''': 1:30-3:00, Thursday, June 27 New Mexico room. <br />
Discussion of recent advances in ULF wave research, with focus on observations and a general discussion of Heliophysics/Geospace System Observatory coordination for ULF wave studies. We particularly encourage presentations describing (1) past or upcoming satellite conjunctions, (2) new data analysis tools, and/or (3) instrumentation/operation modes of interest to the ULF wave research community.<br />
*Seth Claudepierre/Matina Gkioulidou (invited), [https://drive.google.com/open?id=1bjENFjvkWSjLYA_EfFuTxhCyKtVlk7c1 Van Allen Probes: End of Mission and ULF wave studies]<br />
*Tetsuo Motoba, SuperMAG ULF wave tools<br />
*Sarah Vines, Determining EMIC wave vector properties through multi-point measurements: The wave curl analysis<br />
*Aaron Breneman, [https://drive.google.com/open?id=1NHlf9I_VV6vkx9id_NL4gE6YhEsSRxkG BARREL precipitation during solar wind driven ULF wave events] <br />
*Anatoly Streltsov, Effect of the Hall conductivity on generation of ULF waves<br />
*Mohammad Barani, [https://drive.google.com/open?id=1sCMVi0pbWsggpUUnotdl-4LO_hfGGFEc Estimating the Azimuthal Mode Structure of ULF Waves Based on Multiple GOES Satellite Observations]<br />
*Kazue Takahashi, L versus time structures of ground magnetic pulsations<br />
*Chih-Ping Wang, Earthward propagation of Pi2 waves<br />
<br />
'''ULF waves driven by wave-particle interactions and instabilities''': 3:30-5:00, Thursday, June 27 Lumpkins Ballroon South, discussion leaders: Xueling Shi and Hyomin Kim. <br />
Many ULF wave modes are closely related to instabilities and wave-particle interactions inside the magnetosphere: poloidal mode waves associated with particle injections, mirror/drift-mirror modes, buoyancy waves… These waves are often discussed in different contexts and in different GEM sessions. In addition, there have been relatively few studies of modeling internally generated ULF waves. The purpose of this session is to bring together modelers and observers to discuss the underlying processes that drive/damp these waves, their impact(s) on the M-I system (ring current, radiation belt, ionosphere,…), and the models/observations needed to better understand wave dynamics.<br />
*Xuzhi Zhou (invited), Acceleration of relativistic electrons by global-scale ULF waves<br />
*Tomotsugu Yamakawa (invited), [https://drive.google.com/open?id=1PEsq7oWVeXwwXn3JvE5ZvWQIIjfXwKRB Simulation of the excitation of storm-time Pc5 ULF waves by ring current ions based on the drift-kinetic model]<br />
*Frank Toffoletto, Normal Mode Analysis of Buoyancy Waves <br />
*Peter Chi, Observations of High-m Poloidal Waves along Magnetospheric Field Lines<br />
*Mike Hartinger, [https://drive.google.com/open?id=17do2Jxy01SJPmOloBxzTPID9ZzqaPGZI Observations of wave-particle interactions using MagEIS ultra-high resolution energy channels]<br />
*Jiang Liu, Ultralow Frequency Waves Deep Inside the Inner Magnetosphere Driven by Dipolarizing Flux Bundles, and their interaction with electrons<br />
*Kyle Murphy, TBD<br />
<br />
== 2019 Mini-GEM schedule ==<br />
UMEA will hold one session at the [https://gemworkshop.org/ 2019 mini-GEM] workshop<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 8, 2019, Nevada Room<br />
<br />
'''ULF wave modeling challenge event, HGSO coordination, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge and potential 2020 GEM sessions. The next part of the session is open for ULF wave research presentations discussing the ULF wave modeling challenge event or current/upcoming observation campaigns that are particularly useful for ULF wave studies. The last part of the session will be open for 1 slide ULF wave research highlights.<br />
<br />
*Mike Hartinger, [https://drive.google.com/open?id=1eQQc07g7nCTEGNwaTGesQx4ymIU6m815 UMEA updates and proposed sessions for 2020 GEM workshop]<br />
*Dong Lin, [https://drive.google.com/open?id=1SqiD1u69eyKNzLyrtvTWbMK05L5OrkrO LFM Simulations of ULF wave modeling challenge event]<br />
*Mohammad Barani, [https://drive.google.com/open?id=1fQAossqjQ-aBuGIBhDIW6I0_WEtHdQsF High-fidelity ULF wave azimuthal mode number structure estimation using MMS magnetometer observations], [https://www.youtube.com/watch?reload=9&v=W5Vya8pCjNE&t=1s link to related presentation on YouTube]<br />
*Chih-Ping Wang, [https://drive.google.com/open?id=19ugyLwyIp4YRuLpDuzT330IdbbFppQcr Inward propagation of Pi2 wave from plasma sheet to inner magnetosphere: THEMIS-GOES conjunctions]<br />
*Walk-ins<br />
<br />
== 2020 VGEM schedule ==<br />
UMEA will hold two sessions at the [https://gemworkshop.org/ 2020 Virtual GEM] workshop<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave modeling challenge event'''<br />
(Hosted by Xueling Shi)<br />
The first part of the session is for updates on research related to the challenge event (27-29 May 2017 storm): All modeling and observation talks welcome as long as they're related to this event. The last part of the session will be for short research highlights and oral summaries of posters.<br />
<br />
*Mike Hartinger (10 minutes), [https://drive.google.com/file/d/1Z5-g7-f-iKfpuWD03WVkA3Q2Rb9mbQfe/view?usp=sharing 2020 UMEA updates and overview of challenge event] <br />
*Simone Di Matteo (15 minutes), [https://drive.google.com/file/d/1acsSyIszg95muYurOkn0RmW0btblS3Ja/view?usp=sharing On some features characterizing the plasmasphere–magnetosphere–ionosphere system during the geomagnetic storm of 27 May 2017] <br />
*Bob McPherron (15 minutes), [https://drive.google.com/file/d/1pnqs49KamZF2BLgMdaoOroktmkBNnj1c/view?usp=sharing ULF wave activity at synchronous orbit during the May 27-29, 2017 Magnetic storm]<br />
*Boyi Wang (15 minutes), Ionospheric modulation by storm-time Pc5 ULF waves and wave structure detected by PFISR-THEMIS conjunctions<br />
*Lutz Rastaetter (15 minutes), [https://drive.google.com/file/d/1H9nTOrpQHX0NEau1eSktWjWM0KYbyfnM/view?usp=sharing Idealized ULF wave modeling challenge: high-resolution runs] <br />
*Mark Engebretson (5 minutes), [https://drive.google.com/file/d/1kvWyYe52OkTB7uUmKWRDSO305Jina-Yy/view?usp=sharing Nighttime magnetic perturbation events observed in Arctic Canada: Superposed epoch analysis]<br />
*Jinxing Li (5 minutes), Electron microinjections in association with compressional ULF waves: MMS observations<br />
*Xiaojia Zhang (5 minutes), [https://drive.google.com/file/d/1fKwf0t1ohDZIxF5NPtsgGKNP0cBEqECn/view?usp=sharing Spreading of Magnetopause-Generated Ultra-Low-Frequency Perturbations and the Associated Whistler Modulation] <br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave research highlights'''<br />
These will be contributed talks with priority given to graduate students and postdocs. The rationale is that virtual GEM will not provide the same type of networking opportunities as in-person GEM, and we'd like to balance this somewhat by giving more opportunities to students/postdocs to present their work on ULF waves.<br />
<br />
All presentations are 10 minutes including discussion:<br />
*Rachel Rice, Characteristics of Kelvin-Helmholtz Waves as Observed by MMS<br />
*Dong Lin, Idealized ULF wave simulations with GAMERA-RCM model<br />
*Boyi Wang, The interaction between ions and the ULF waves driven by a foreshock transient<br />
*Jayashree Bulusu, [https://drive.google.com/file/d/1YyRAo0I7Cf4-buxhTBXLxYaTWw7GX6SZ/view?usp=sharing Investigation of Pi2s during super quiet conditions from low and mid-latitudes]<br />
*Changzhi Zhai, High-m Poloidal ULF Wave Signatures in GPS TEC Data<br />
*Simone Di Matteo, [https://drive.google.com/file/d/1yYaidiu7O4a0Z8PeQXELiyatB03hJQyX/view?usp=sharing Power Spectral Density Background Estimate and Signal Detection via the Multitaper Method] <br />
*Yixin Hao, [https://drive.google.com/file/d/1iIf5QpLE9t7IThiIPNwhCoRHrbFDoR8R/view?usp=sharing Simultaneous observations of localized and global drift resonance]<br />
*Mohammad Barani, [https://drive.google.com/file/d/1it2y8JXJzrbjmt56MWia7ffbei63gIwC/view?usp=sharing Effects of realistic mode number structure on radial diffusion estimation]<br />
<br />
== 2021 Virtual Mini-GEM schedule ==<br />
UMEA will hold one session at the Virtual Mini-GEM Worskhop.<br />
<br />
'''Time''': 12:00-14:00 US Eastern Time, Friday, January 22, 2021<br />
<br />
'''ULF wave modeling challenge event, planning for 2021 GEM meeting, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge event, including an invited talk by Naoko Takahashi. The next part of the session will be for open discussion on potential 2021 GEM sessions. The final part of the session will be open for ULF wave research highlights. <br />
*Mike Hartinger, Brief Introduction to Challenge event<br />
*Naoko Takahashi, Relative contribution of ULF waves and whistler-mode chorus to the radiation belt variation during May 2017 storm<br />
*Ian Kelley, GPS TEC response during the ULF wave challenge event<br />
*Mike Hartinger, ULF wave geoelectric fields during the challenge event<br />
*All, Planning for 2021 GEM sessions<br />
*Bob Lysak, FLRs in Jupiter's magnetosphere<br />
*Toshi Nishimura, Upcoming conjunctions for ULF wave studies<br />
*Toshi Nishimura, PFISR and all-sky imager observations of Pc5 ULF waves during substorms<br />
*Francesco Lena, Detection of Hertz Frequency Multiharmonic Field Line Resonances at Low-L (L=1.1–1.5) During Van Allen Probe Perigee Passes<br />
<br />
== 2021 VGEM schedule ==<br />
UMEA will lead four sessions at the [https://gemworkshop.org/ 2021 Virtual GEM] workshop.<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''Recent Advances in ULF Wave Research'''<br />
This session will start with a short update on the ULF wave modeling challenge. The rest of the session will be for recent advances in ULF wave research, with priority given to presentations (1) with data or modeling results related to the challenge event (27-28 May 2017) or (2) discussions of ULF wave data-model comparisons.<br />
<br />
*Mark Engebretson, Pc1 waves / MMS k-vector technique<br />
*Michelle Salzano, IPDP-Pi1B - modeling drift shell splitting<br />
*Yangyang Shen, Tens to hundreds of keV electron precipitation driven by kinetic Alfven waves during an electron injection<br />
*Chih-Ping Wang, Statistical results for Pi2 waves associated with the plasma sheet BBFs observed by THEMIS-RBSP pair with RBSP inside or outside the plasmasphere<br />
*Tom Elsden, Modelling the Varying Location of Field Line Resonances During Geomagnetic Storms<br />
*Denny Oliveira, Factors controlling shock-induced magnetospheric ULF waves<br />
*Short Oral Summaries of Posters<br />
*Open Discussion<br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''The Future of ULF Wave Research'''<br />
This session will begin with a review of the ULF wave FG’s original goals, research topics covered in the last 5 years and related activities, and unresolved questions and research objectives. The remainder of the session is open for 1-2 slide presentations on major unresolved questions in ULF wave research. We particularly encourage presentations (1) exploring topics that could be addressed by current/future GEM FG or decadal survey white paper, (2) highlighting major questions or obstacles preventing progress in ULF wave research (e.g., missing data in a critical region, missing theory/modeling component), (3) discuss how ULF wave researchers can best take advantage of future satellite missions, ground-based infrastructure, computing advances/big data/AI, and modeling/theory advances. <br />
<br />
*Mike Hartinger, Retrospective on the ULF wave focus group<br />
*Martin Archer, Surface Waves<br />
*Tom Elsden, 3D FLRs<br />
*Solene Lejosne, Wave-Particle Interactions<br />
*Ayomide Olabode and Michelle Salzano, Ground Magnetic Perturbations<br />
*Xueling Shi, Applications of TEC observations<br />
*Open discussion, walk-in presentations welcome<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Tuesday, July 27, 2021<br />
<br />
'''ULF Wave M-I Coupling Processes'''<br />
This session is joint with the IEMIT FG. The session will begin with a review of the role of ULF waves on M-I coupling. The remainder of the session is open for 5-min presentations on ULF wave topics related to M-I coupling, e.g., auroral acceleration, particle precipitation, geomagnetic perturbations, GICs, etc. More questions and discussions will be left to the end.<br />
<br />
*Hui Zhang, Role of ULF waves in M-I coupling<br />
*Chaosong Huang, Global Pc5 pulsations<br />
*Tetsuo Motoba, Daytime Pc5 Diffuse Auroral Pulsations and Their Association With Outer Magnetospheric ULF Waves<br />
*Anton Artemyev, ULF driven precipitations as observed by ELFIN<br />
*Mark Engebretson, Magnetic perturbation events related to GICs<br />
*Denny Oliveira, IP shock impact angle control of local intense dB/dt variations during substorm<br />
*Xueling Shi, Sources of Intense Geoelectric Fields in the United States<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Friday, July 30, 2021<br />
<br />
'''Coupling Between ULF Waves and Cold Plasma'''<br />
This session is joint with the Cold Plasma FG. The session will begin with a review of mechanisms that couple cold plasma populations to ULF waves by Richard Denton. The remainder of the session is for contributed presentations (likely 2-3 slides) describing (1) recent advances in our understanding of cold plasma interactions with ULF waves and (2) outstanding questions that could be discussed in future cold plasma FG sessions.<br />
<br />
*Richard Denton, Coupling Between ULF Waves and Cold Plasma<br />
*Alex Degeling, Modeling ULF Waves Trapped in a Plasmaspheric Density Plume <br />
*Eun Hwa Kim, Can Electromagnetic Ion Cyclotron Waves Propagate to the Ground?: 2D Full Wave Simulation<br />
*Bob Lysak, Relation of plasmaspheric cavity modes to Pi2 pulsations in an asymmetric plasmasphere<br />
*Yixin Hao, ULF wave-cold plasma interaction<br />
*Mike Hartinger, The relationship between global ULF wave properties and radial Alfven speed profile</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=FG:_ULF_Wave_Modeling,_Effects,_and_Applications&diff=5350FG: ULF Wave Modeling, Effects, and Applications2021-07-23T01:06:03Z<p>Mdhartin: /* 2021 VGEM schedule */</p>
<hr />
<div>''Focus Group Leaders:''<br />
* Michael Hartinger, Space Science Institute (mhartinger@spacescience.org)<br />
* Kazue Takahashi, Applied Physics Laboratory<br />
* Alexander Drozdov, UCLA<br />
* Maria Usanova, University of Colorado<br />
* Brian Kress, University of Colorado and NOAA-NCEI<br />
* Xueling Shi, Virginia Tech<br />
<br />
Focus Group term: 2016-2021<br />
<br />
Join the discussion on [https://gemworkshop.slack.com/archives/C016U8PA7TJ Slack], including discussion related to the 2020 GEM and 2021 miniGEM meetings.<br />
<br />
== Science Questions ==<br />
Our group aims to address the following broad science questions: What mechanisms excite ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in Magnetosphere-Ionosphere coupling?<br />
<br />
== Focus Group Proposal ==<br />
[http://gem.epss.ucla.edu/mediawiki/FGproposals/Hartinger-UMEA.pdf ULF Wave Modeling, Effects, and Applications (UMEA)] (December 2015)<br />
<br />
== ULF wave modeling challenge ==<br />
<br />
One part of the ULF wave modeling challenge involves running several global MHD simulation codes with identical, idealized solar wind driving conditions (sinusoidal density variation), then comparing the resulting global ULF wave properties and discussing differences in the context of differing boundary conditions, grids, etc. More details can be found here: [http://ccmc.gsfc.nasa.gov/challenges/ULF/ ULF wave modeling challenge at CCMC]<br />
<br />
Another part of the ULF wave modeling challenge involves data-model comparisons during specific events. At the 2017 GEM and mini-GEM meetings several [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing challenge events] were proposed, including two [https://drive.google.com/open?id=1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI 2017 events].<br />
<br />
We have selected the [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing 27-28 May 2017 storm event] for the ULF wave modeling challenge due to favorable solar wind coverage and availability of numerous satellites (MMS, ARASE, THEMIS, RBSP, Cluster, GOES, ...) and ground-based observations for global context and multi-point wave observations. We will be continuously updating this [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing overview presentation] with observation and modeling results. Model output and observations for the challenge event - including global densities from the NURD model - can be obtained [https://drive.google.com/drive/folders/1Bk9vJtbEHd-vSuYqr3UG9NGCqaBn69hw?usp=sharing here]. If you would like to add additional observations/model output to the google drive or overview pdf, please contact the co-chairs.<br />
<br />
CCMC has run several global MHD simulation codes using the driving conditions of the ULF wave challenge event. At the 2019 GEM meeting and future GEM/mini-GEM meetings, we plan data-model comparisons to identify where model/data don't agree and discuss these differences in the context of incorrect boundary conditions (e.g., compare model ionosphere to local PFISR-derived conductivities), missing physics, numerical dissipation, etc. Please contact CCMC/Lutz Rastaetter and model developers before using this simulation output in publications:<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_SWMF_040319_1 Space Weather Modeling Framework simulation], IMF Bx=0 (other parameters as in event). Full 2-day event, 3D output every 15s, virtual ground magnetometer. If you haven't used CCMC visualization tools before, be aware that you shouldn’t submit multiple visualization requests at the same time, as this could crash CCMC server for these large 3D files. Instead, request a batch process or wait for the first visualization request to complete. The easiest/fastest visualization is to follow the link above and scroll down until you see the virtual ground magnetometer and satellites list. Click on the magnetometer/satellite of interest, then select which parameter(s) to display/download. <br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_1 OpenGGCM run 1] – IMF Bx = -7 nT. Smaller time range available on 28 May 0400-1000, only virtual ground magnetometer from POKR/CMO available now. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_1 Full results including virtual satellite.]<br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_2 Open GGCM run 2] – IMF Bx = 0 nT (as in SWMF simulation). Same format as other OpenGGCM simulation. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_2 Full results including virtual satellite.]<br />
<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_LFM_051519_2 LFM simulation]<br />
<br />
== ULF wave HGSO event coordination ==<br />
Our group is helping coordinate analysis of conjunction events for ULF wave studies, including requesting instrument operation modes favorable for ULF wave analysis.<br />
<br />
The [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] 0400-0800 UT conjunction event includes several satellites (THEMIS, Cluster, Van Allen Probes, GOES, Geotail, FIREBIRD, METOP, POES, DMSP) in the pre-midnight sector during a conjunction with the Poker Flat Incoherent Scatter Radar and several SuperDARN radars. PFISR was operating throughout the conjunction, several SuperDARN radars were in high resolution sampling modes, and several satellites were operating in fast survey/burst mode. The conjunction is favorable for modeling and observation studies of magnetosphere-ionosphere coupling via ULF waves, wave-particle interactions, global ULF wave properties, and many other topics. [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing This pdf] summarizes preliminary results<br />
<br />
Several web-based tools are available for identifying future conjunctions, including [https://ergsc.isee.nagoya-u.ac.jp/analysis/index.shtml.en upcoming conjunctions between ARASE and Van Allen Probes/ground] and conjunctions between [https://swarm-aurora.com/conjunctionFinder/ SWARM/all-sky cameras].<br />
<br />
'''There are also many specialized, web-based tools for ULF wave analysis (please contact FG co-chairs to add to this list):'''<br />
<br />
*SuperMAG ground-based magnetometer [http://supermag.jhuapl.edu/rBrowse/?start=2001-01-30T05%3A00%3A00.000Z&step=14400 global ULF wave plots]<br />
<br />
*CARISMA ground-based magnetometer [http://www.carisma.ca/carisma-data/fgm-pc1-power-spectra Pc1 power spectra] and [http://www.carisma.ca/carisma-data/fgm-pc5-power-spectra Pc5 power spectra]<br />
<br />
*Augsburg College/UNH Arctic and Antarctic [http://space.augsburg.edu/searchcoil/index.html search coil magnetometer survey plots] <br />
<br />
*Augsburg College (hosted by ViRBO) [http://virbo.org/Augsburg/ULF ULF wave index]<br />
<br />
*[http://vt.superdarn.org/tiki-index.php?page=DaViT+DynFFT SuperDARN wave analysis] and [http://vt.superdarn.org/tiki-index.php?page=Data+Inventory identification of high time-resolution SuperDARN beams]<br />
<br />
*THEMIS satellite fluxgate magnetometer [http://themis.ssl.berkeley.edu/summary.php?year=2014&month=05&day=11&hour=0024&sumType=thmfgmdyn&type=themislinfgl wave survey plots]<br />
<br />
*National Institute of Polar Research inter-hemispheric comparisons of Syowa/Iceland [http://iugonet0.nipr.ac.jp/web/induction/ induction magnetometer spectra]<br />
<br />
*[http://mist.nianet.org/Satellite_Conjunctions/ Inter-hemispheric comparisons] during satellite conjunctions with Arctic(DTU Space)/Antarctic(Virginia Tech) magnetometers<br />
<br />
*[http://kho.unis.no/uaf_msp.htm Meridian Scanning Photometer plots] from [http://kho.unis.no/ UNIS/Kjell Henriksen Observatory], for context on open-closed boundary and ULF modulation of the aurora<br />
<br />
== Summary Reports for GEM workshops ==<br />
[https://drive.google.com/file/d/1QLH8FcKm3-f25aLwoetOuYJGZu5sPgN3/view?usp=sharing 2016 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1SRIv6Gn-NNnqGPHGvjvZQcdDml2GQpv_/view?usp=sharing 2017 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1clzFHWrxC9hvYf9kECJx4bPn9xn8WwsG/view?usp=sharing 2018 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1_fLwZFCLBTBHnq8HkaFPWUvaIY81E-t0/view?usp=sharing 2019 UMEA FG report]<br />
<br />
== 2016 Mini-GEM schedule ==<br />
UMEA will hold one session at the [http://www.cpe.vt.edu/gem-mini/ mini-GEM workshop]: ULF wave modeling, effects and applications updates<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 11, 2016<br />
<br />
'''Location''': Oregon Room, Holiday Inn Golden Gateway<br />
<br />
'''Schedule:'''<br />
<br />
'''First Half (12:00 – 12:45): 3 talks (~15 min each):'''<br />
<br />
*1. Mike Hartinger -- [http://gem.epss.ucla.edu/mediawikiwiki/images/7/7c/UMEAoverview_miniGEM2016.pdf Overview of UMEA current activities, discussion of future plans]<br />
<br />
*2. Lutz Rastaetter -- ULF wave modeling challenge at CCMC<br />
<br />
*3. Robert Rankin -- Modeling the global properties and ground-based signatures of ULF waves and wave-particle interactions<br />
<br />
'''Second Half (12:45 – 13:30): (5 minutes each, 1-2 slides, order of talks may change):'''<br />
<br />
*1. Xueling Shi -- SuperDARN THEMIS Mode Data Tracker & ULF Wave Detection<br />
<br />
*2. Richard Denton -- Mass density inferred from Alfven wave frequencies measured by RBSP<br />
<br />
*3. Lars Daldorff -- ULF waves, particle transport and energization in global MHD simulations with plasmasphere<br />
<br />
*4. Alexander Drozdov -- Dependence of radiation belt simulations to assumed radial diffusion rates tested for two empirical models of radial transport<br />
<br />
*5. Bob Lysak -- Quarter Wavelength Modes<br />
<br />
*6. Walk-ins<br />
<br />
== 2017 GEM meeting schedule ==<br />
UMEA will hold four sessions session at the 2017 GEM meeting<br />
<br />
'''UMEA Update and plans, general discussion of ULF wave modeling and observations''': 10:30-12:15, Monday, June 19, Port VI-VIII<br />
<br />
*1. Michael Hartinger -- [https://drive.google.com/file/d/0B57bC_V89WW6dnBCbmFFSkFURUk/view?usp=sharing UMEA update]<br />
<br />
*2. Toshi Nishimura -- PFISR measurements during the 2 May 2017 HGSO event<br />
<br />
*3. Xueling Shi -- [https://drive.google.com/file/d/0B57bC_V89WW6OUcyNGNWM0piWnc/view?usp=sharing A Survey of Ionospheric ULF Wave Signatures in SuperDARN Data: Occurrence Statistics and Driving Mechanisms]<br />
<br />
*4. Tetsuo Motoba -- Dayside Auroral Pulsations<br />
<br />
*5. Brian Kress and Rob Redmon -- Newly Available GOES 8-16 Particle and Magnetic Field Measurements<br />
<br />
*6. Dick Wolf -- Theory of magnetospheric buoyancy waves<br />
<br />
<br />
'''ULF wave interactions with the radiation belt and ring current populations''': 1:30-3:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Rualdo Soto-Chavez -- Generation of Pc5-ULF wave by the drift-mirror instability<br />
<br />
*2. Zhiyang Xia -- [https://drive.google.com/file/d/0B57bC_V89WW6Y1VQRXJKd3Qya3c/view?usp=sharing Eigenmode analysis of compressional poloidal modes in a self-consistent magnetic field]<br />
<br />
*3. Mark Engebretson -- [https://drive.google.com/file/d/0B57bC_V89WW6QlM3LU9lTVVwZ1E/view?usp=sharing Statistical study of the upper frequency cutoff of helium band EMIC waves observed by the Van Allen Probes]<br />
<br />
*4. Alexander Drozdov -- Radial diffusion and EMIC waves in the long-term simulation and in the case study<br />
<br />
*5. Seth Claudepierre -- Global MHD simulations driven by idealized Alfvenic fluctuations in the solar wind<br />
<br />
*6. Michael Hartinger -- Radiation belt response to large scale, monochromatic ULF waves: LANL-GEO observations<br />
<br />
<br />
'''ULF wave modeling, including CCMC modeling challenge, Joint with MMV''': 3:30-5:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Lutz Rastaetter -- CCMC ULF wave modeling challenge update and challenge events<br />
<br />
*2. Scot Elkington -- [https://drive.google.com/file/d/0B57bC_V89WW6WUxJcGNqbUU2bzA/view?usp=sharing ULF wave activity and diffusion coefficients during QARBM challenge events], [https://drive.google.com/file/d/0B3MAHZknMumcem40dTVyNVRFbE0/view?usp=sharing Ashar F. Ali’s write-up on Event-Specific Radial Diffusion Coefficients Derived Using RBSP EMFISIS and EFW Data]<br />
<br />
*3. Katariina Nykyri -- KHI challenge events<br />
<br />
*4. All -- Open Discussion of Challenge Events<br />
<br />
*5. Doga Ozturk -- Effects of Increased Solar Wind Dynamic Pressure on the Coupled M-I system under different IMF By<br />
<br />
*6. Kazue Takahashi -- Cavity mode Van Allen Probe observations<br />
<br />
*7. Bob Lysak -- Cavity mode models<br />
<br />
*8. Tom Elsden -- [https://drive.google.com/file/d/0B57bC_V89WW6SDNnYjdwSVM3Y3c/view?usp=sharing The Theoretical Foundation of 3D Alfven Resonances: Time Dependent Solutions]<br />
<br />
<br />
'''Magnetosphere-Ionosphere coupling processes associated with localized disturbances caused by dayside kinetic phenomena: Joint with “Dayside Kinetic Processes…” and “Testing proposed links…”''': 3:30-5:00, Tuesday, June 20, Port VI-VIII<br />
<br />
*1. Peter Chi -- Magnetospheric and ionospheric responses to a localized disturbance: The macroscopic view<br />
<br />
*2. Hui Zhang -- Magnetospheric ULF waves generated by foreshock transients<br />
<br />
*3. Hui Zhang -- Modeling challenges in simulating HFA geoeffects<br />
<br />
*4. Boyi Wang -- Optical signatures of dayside ULF waves during magnetosheath high-speed jets<br />
<br />
*5. Katariina Nykyri -- The effect of magnetosheath seed spectrum on KH evolution and associated mass transport<br />
<br />
*6. Kyle Murphy -- A statistical study of discrete ULF wave power observed by GOES<br />
<br />
== 2017 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2017 mini-GEM] workshop<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 10, 2017, Canal/50<br />
<br />
'''ULF wave modeling challenges'''<br />
Discussion of final plans for the CCMC ULF wave modeling challenge with idealized drivers, as well as open discussion of new challenges involving data-model and model-model comparisons during [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing specific events]. Please come with 1-2 slides showing examples of such comparisons, ideas for improving ULF wave models, and/or ideas for specific modeling challenges/sessions relevant to the FG science questions.<br />
<br />
*1. 12:00-12:30 Overview of CCMC ULF wave modeling challenge with idealized driving conditions, description of challenge events and targets proposed during 2017 GEM meeting and November modeling telecon (Michael Hartinger, Lutz Rastaetter)<br />
*2. 12:30-13:30 [https://drive.google.com/file/d/1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI/view?usp=sharing Open discussion of challenge events and targets (Allison Jaynes,] Robert Rankin), select challenge event to be analyzed at 2018 GEM<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 10, 2017, Canal/50<br />
<br />
'''Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
Discussion of HGSO coordination for ULF wave studies. This includes updates on the [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] conjunction event followed by an open discussion of conjunctions and datasets that are particularly useful for ULF wave studies, including upcoming RBSP-ERG-ground conjunctions. Please come with 1-2 slides showing examples of datasets and past/upcoming conjunctions ideal for addressing the FG science questions: What excites ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in MI coupling? We welcome discussion from both modelers and observers of the types of conjunctions and observations that are most needed to address these questions.<br />
<br />
*1. 13:50-14:20 Recently available datasets and conjunctions for ULF wave studies (Chih-Ping Wang, Xueling Shi, Sana Qamar, Rob Redmon)<br />
*2. 14:20-14:35 Updates on 2 May 2017 conjunction event (Toshi Nishimura, Michael Hartinger)<br />
*3. 14:35-15:20 Upcoming ARASE-RBSP conjunctions (Yoshi Miyoshi), Open Discussion of HGSO coordination for ULF wave studies (Toshi Nishimura, Kazue Takahashi)<br />
<br />
== 2018 GEM meeting schedule ==<br />
UMEA will hold [https://drive.google.com/file/d/1uh-ZOICfOBzNs9KLe3saFMnY9P-oqV9R/view?usp=sharing four sessions] at the 2018 GEM meeting. <br />
<br />
'''ULF waves during particle injections and dipolarizations, joint with Dipolarization and Substorm FG''': 10:30-12:00, Monday, June 18<br />
<br />
*1. Discussion of Session Topic<br />
<br />
*2. Bob Lysak -- [https://drive.google.com/file/d/1w8o5aGYbLsIEy2YmaoosF3WNeWTuLE59/view?usp=sharing Ionospheric Conductivity Effects on Pi2 Pulsations]<br />
<br />
*3. Mike Hartinger -- [https://drive.google.com/file/d/1tcJgspMQDkhPPvSTng4eZP7h-j7jvVR7/view?usp=sharing Pi2 waves during an extended period with stable plasmapause location and variable geomagnetic activity]<br />
<br />
*4. Toshi Nishimura -- Ionosphere observations of Pc5 ULF waves during 2018 HGSO conjunctions<br />
<br />
*5. Xueling Shi -- Long-lasting poloidal ULF waves observed by multiple satellite and SuperDARN HF radars<br />
<br />
*6. Jian Yang -- New RCM-I simulation results for buoyancy waves<br />
<br />
*7. Dick Wolf -- [https://drive.google.com/file/d/1vTkH_lmgXCcvkAYU6HgO_R5ZgIdGji3O/view?usp=sharing Theory of Buoyancy Waves] <br />
<br />
*8. Yan Song -- What Causes the Substorm Expansion Phase and Associated ULF Waves?<br />
<br />
<br />
'''Recent advances in ULF wave research''': 1:30-3:00, Monday, June 18 <br />
<br />
*1. [https://drive.google.com/file/d/1ms9kDYlBhCnxti8z9o9Lx8y0PPmkWu_-/view?usp=sharing Overview of focus group goals and recent progress]<br />
<br />
*2. Brief ULF wave poster overviews (Tuesday posters)<br />
<br />
*3. Kazue Takahashi -- Observation of nightside ULF waves by RBSP and Arase<br />
<br />
*4. Tom Elsden -- Broadband Excitation of 3D Alfven Resonances (FLRs) in an MHD Waveguide<br />
<br />
*5. Boyi Wang -- 2-D structure of foreshock driven Pc5 ULF waves observed by the THEMIS satellites and South Pole imager<br />
<br />
*6. Xiaochen Shen -- Foreshock transient-driven ultra-low frequency (ULF) waves with dawn-dusk asymmetry of wave power<br />
<br />
*7. Chih-Ping Wang -- ULF waves possibly driven by tailward propagation of foreshock perturbations<br />
<br />
*8. Allison Jaynes -- [https://drive.google.com/file/d/1EC3yPvda8fA0LUr9qTfszluNDLs6LdHT/view?usp=sharing Fast diffusion of ultra-relativistic electrons in the outer radiation belt: 17 March 2015 storm event]<br />
<br />
*9. Rualdo Soto -- The Drift-Mirror instability in Earth's inner magnetosphere<br />
<br />
*10. Martin Archer/Mike Hartinger -- [https://drive.google.com/file/d/1t4fmiiZP9wdJ-40TISEC7BuicEd64m7W/view?usp=sharing Results from Sonification and Citizen Science of Magnetospheric ULF waves]<br />
<br />
<br />
'''EMIC wave generation, propagation, and interactions''': 3:30-5:00, Monday, June 18 (discussion leaders: Alexander Drozdov and Maria Usanova)<br />
[https://drive.google.com/open?id=15rjO2UxK8sqdOfHXunDSLv5q-z51vwuD Session Summary]<br />
<br />
*1. Dedong Wang -- EMIC wave observations from Van Allen Probes and MMS<br />
<br />
*2. Mark Engebretson -- [https://drive.google.com/file/d/1jkhN45ezaeQyeAA7HmVuYOF_izjAMYra/view?usp=sharing Van Allen Probes, and ground based magnetometer observations of EMIC waves associated with a modest interplanetary shock]<br />
<br />
*3. Maria Usanova -- MMS Observations of Harmonic Electromagnetic Cyclotron Waves<br />
<br />
*4. Naritoshi Kitamura -- Direct measurements of energy transfer from hot H+ to EMIC waves by MMS<br />
<br />
*5. Bruce Fritz -- ELF Whistler Dependence on a Sunlit Ionosphere<br />
<br />
*6. Chae-Woo Jun -- EMIC waves associated with/without the injection inside/outside the plasmapause<br />
<br />
*7. Hyomin Kim -- Injection-associated EMIC waves<br />
<br />
*8. Sebastian Cervantes -- EMIC wave parameterization in radiation belt reanalysis<br />
<br />
*9. Maria Usanova -- Long-term correlation of EMIC wave activity and radiation belt flux variations<br />
<br />
*10. Alexander Drozdov -- The effects due to the EMIC waves in the VERB code modeling<br />
<br />
<br />
'''ULF wave modeling challenge, joint with MMV FG''': 3:30-5:00, Wednesday, June 20<br />
<br />
*1. Brief ULF wave poster overviews (Thursday posters)<br />
<br />
*2. Mike Hartinger: [https://drive.google.com/file/d/1g2cL_qaDbASLH5DoJ_auJKQCbG96sdQn/view?usp=sharing ULF wave modeling challenge event overview, discussion of challenge targets (continuing during session)]<br />
<br />
*3. Mariko Teramoto: ARASE ULF wave observations during challenge event<br />
<br />
*4. Sam Califf: [https://drive.google.com/file/d/1CvbVG2Dp8e6RokJE0501L8-LU9ipdUFT/view?usp=sharing GOES-14 and 16 observations during the ULF wave challenge event, Data Discussion]<br />
<br />
*5. Toshi Nishimura: [https://drive.google.com/file/d/1cavbwNU4LoAigIsGvGF_UtiTaM97dFtP/view?usp=sharing PFISR measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*6. Dogacan Su Ozturk: [https://drive.google.com/file/d/1MmP3D_4eeJbEVJzUyx8fAtFsG3b0grzy/view?usp=sharing The modeling study of the 27 March 2017 Event] <br />
<br />
*7. Xiaochen Shen: GEM Challenge Event: ULF wave-related electron and proton precipitation/negative dynamic pressure pulse driven EMIC wave<br />
<br />
*8. Tetsuo Motoba: [https://drive.google.com/file/d/1544ngYBXat-zUC1gZqo0lMVUZtYqxUqH/view?usp=sharing Auroral measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*9. Others discuss when their figures/summary plots in event overview pdf are presented…<br />
<br />
== 2018 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2018 mini-GEM] workshop<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF modulation of the aurora, Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
This session focuses on understanding a variety of mechanisms responsible for ULF modulations of the aurora. Eric Donovan will give a 30 minute invited presentation, with the rest of the session open for presentations and discussion on this topic. We welcome discussion of ULF aurora generation mechanisms and the types of conjunctions, observations, and models needed to understand the zoo of ULF auroral modulations. We also welcome discussion of upcoming observation campaigns/satellite conjunctions that would be particularly useful for ULF wave studies.<br />
<br />
*1. Eric Donovan<br />
*2. Tetsuo Motoba<br />
*3. Slava Pilipenko<br />
*4. Boyi Wang / Toshi Nishimura<br />
*5. Open discussion<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF wave modeling challenge and research highlights'''<br />
The first part of the session is for updates on the idealized ULF wave modeling challenge and potential 2019 GEM sessions. The next part of the session is for observation/model presentations relevant to the 27-28 May 2017 ULF wave challenge event and final selection of the modeling challenge targets – all types of models and observations welcome. The last part of the session will be open for 1 slide ULF wave modeling and observation research highlights. <br />
<br />
*1. [https://drive.google.com/file/d/1vqxxn3gYXfzDKABe9yRwMgR8vbKRua_j/view?usp=sharing 2019 GEM session ideas] (Mike Hartinger)<br />
*2. Idealized Modeling Challenge (Lutz Rastaetter)<br />
*3. ULF wave modeling challenge event updates: Rob Redmon/Sam Califf/Mike Hartinger (GOES magnetometer observations), Yoshi Miyoshi (Arase magnetic field observations), [https://drive.google.com/file/d/1B6DGHvAzUhBG79eUJWPsUD2BSjGhQrrw/view?usp=sharing Hyomin Kim (wave-particle interaction)], [https://drive.google.com/file/d/180iaBGrbCPf1rYy6uVZn8OsLTOFREqsD/view?usp=sharing Dong Lin (LFM simulations)]<br />
*4. General ULF wave modeling: [https://drive.google.com/file/d/10gUKitjDPnbV_g9r9CAHDFeE365wUQQd/view?usp=sharing Yaireska Collado-Vega (vortex identification/surface waves)], [https://drive.google.com/file/d/1kkGlYKoYHr7XZf5nT3kaXITUD3tpNynJ/view?usp=sharing Alex Degeling (ULF wave radiation belt interactions)] <br />
*5. Research highlights (1-slide): Rualdo Soto (Van Allen Probes and Cluster satellites’ observations of Pc 5 (mHz) magnetic pulsations), [https://drive.google.com/file/d/1V_Joz3psBQbCBoVKRYaOKdKIEoZ72WgQ/view?usp=sharing Xueling Shi (SuperDARN ULF waves)], Martin Archer (magnetopause surface eigenmodes), [https://drive.google.com/file/d/1Mmi3VfERKswG3dpYidVUgOQra2UG-9s2/view?usp=sharing Martin Archer (sonification)]<br />
<br />
== 2019 GEM meeting schedule ==<br />
<br />
UMEA will hold [https://drive.google.com/file/d/1KmH9XqxrisGH_g4s0ny7QDkutmv7tKlr/view?usp=sharing six sessions] at the 2019 GEM meeting, four joint with other focus groups. <br />
<br />
'''Recent advances in ULF wave research: Modeling''': 3:30-5:00, Monday, June 24 New Mexico room, joint with MMV. <br />
Discussion of advances in ULF wave research, with focus on modeling and modeling challenges (e.g., boundary conditions, grid resolution, missing physics). This includes models of the effects of ULF waves on inner magnetosphere dynamics and wave-particle interactions. We particularly encourage presentations focused on the ULF wave modeling challenge, including data-model comparisons for the 27-28 May 2017 challenge event.<br />
*Mike Hartinger, [https://drive.google.com/open?id=1Drkq9epsQWY4AjpV1EF-8Ci_kaKyN2jk FG updates]<br />
*Jesper Gjerloev, SuperMAG ULF updates<br />
*Tetsuo Motoba, High-time resolution SuperMAG ULF data products<br />
*Lutz Rastaetter, ULF wave modeling challenge<br />
*Maulik Patel, MHD test particle simulations of the 16 July 2017 shock compression of the dayside magnetopause <br />
*Bob McPherron, Pi 2 pulsations during the storm of May 27-29 2017, The Statistics of Pi 2 Pulsation Occurrence during a Major Magnetic Storm<br />
*Dong Lin, LFM simulations of surface waves during challenge event<br />
<br />
'''The ULF response to dayside transients with different temporal/spatial scales''': 10:30-12:00, Wednesday, June 26 Santa Fe room, discussion leader: Tom Elsden, joint with Dayside Kinetics and IHMIC. <br />
Dayside transient phenomena associated with kinetic scale processes cause a variety of ULF wave behaviour in the magnetosphere and further, contribute to significant magnetospheric asymmetries. The aim of this session is to bring together the expertise of the three focus groups listed above, to answer outstanding questions at the overlap of these disciplines. It is hoped that such a discussion should prove fruitful enough to generate a JGR commentary paper in this area. With this in mind, speakers in this session are encouraged to give their views as to the current state of the subject area, and how outstanding problems may be addressed in the future.<br />
* Tom Elsden - Session introduction and goals<br />
* Ferdinand Plaschke (invited) - An overview of dayside transients causing ULF waves<br />
* Tom Elsden - 3D ULF wave modeling with MHD<br />
* Boyi Wang - The role of magnetosheath high-speed jets in triggering magnetospheric Pc5 ULF waves<br />
* Bob Lysak - Ionospheric asymmetries and quarter-wave modes<br />
* Xueling Shi - Conjugate Observations of ULF Waves during an Extended Period of Radial IMF<br />
* Michael Hartinger - Localized magnetopause surface wave activity and [https://drive.google.com/open?id=1d8lDB-FPGa6VErL37aZz3xZSgpNvxbk0 modeling challenges]<br />
* Discussion<br />
<br />
'''ULF wave modeling challenges associated with Magnetosphere-Ionosphere-Thermosphere Coupling''': 3:30-5:00, Wednesday, June 26 Lumpkins Ballroon South, joint with IEMIT, discussion leader Doga Ozturk. <br />
ULF waves play important roles in M-I-T coupling, driving current systems that can lead to I-T system heating and geomagnetically induced currents. This session aims to bring together researchers from the ULF wave and M-I-T coupling research communities to discuss challenges associated with realistically modeling M-I-T coupling processes associated with these waves. The session will begin with a discussion of the ULF wave challenge event; comparisons between modeled / observed (PFISR) conductivities and modeled/observed ULF wave properties will be presented, and the community will be invited to discuss explanations for model/observation differences. The rest of the session is open for short presentations on ULF wave modeling challenges related to M-I-T coupling, including topics such as specifying conductivity and effect of conductivity on wave properties, effect of ionospheric boundary conditions in global simulations, boundary conditions and feedback between magnetosphere and ionosphere, capturing role of waves in ionospheric-thermospheric heating.<br />
# (Invited) Boyi Wang: Ionospheric modulation by Pc5 ULF waves and wave structure detected by PFISR<br />
# (Invited) Xiaojia Zhang / Anton Artemyev: ULF modulation of VLF waves and precipitation<br />
# Doga Ozturk: Update from GEM/CEDAR joint session, [https://drive.google.com/open?id=1WsSf4PFHiBo_iZ3za-bhUWKHFJd4MNQX ULF Wave activity and Meso-Scale electric field variability at high-latitude I-T system]<br />
# Anatoly Streltsov: ULF waves generated by the MI interactions near the plasmapause<br />
# Mergen Alimaganbetov: ULF waves observed in space and on the ground at high and low latitudes<br />
# Mark Engebretson: [https://drive.google.com/open?id=16WbDl3rnuehoifUqFj4oMw_Tn5WhEFlU Multi-Instrument Observations of Nighttime Impulsive Magnetic Events]<br />
# Bob Lysak: Modeling ionospheric conductance and ground magnetic fields<br />
# Yan Song: ULF wave, M-I coupling and Auroral formation.<br />
<br />
[https://drive.google.com/open?id=1wGpZPk086Zs54uWGtYiRjByPmVCFnsSv '''EMIC waves''']: 10:30-12:00, Thursday, June 27 New Mexico room, joint with Radiation Belt. <br />
The generation mechanisms of Electromagnetic Ion Cyclotron (EMIC) waves, their effects on energetic electrons and ions, and their propagation through the magnetosphere-ionosphere system are challenging topics that involve multiple GEM research areas. Despite several years of observations and improved global wave statistics, there are many unresolved questions that limit further investigation, modeling and prediction of dynamical processes in the inner magnetosphere involving EMIC waves. Hence, we invite short presentations that discuss recent findings in different areas of EMIC wave research and identify observations/models most needed to address unresolved questions.<br />
*Robert Allen, Outer magnetospheric EMIC wave source regions characterized by Cluster<br />
*Sarah Vines, EMIC waves in the outer magnetosphere: Observations of an off-equator source region<br />
*Justin Lee, [https://drive.google.com/open?id=1xlJfppvWgOC_JHy6QgPpptcI3GjkYuLC EMIC wave observations by MMS] <br />
*Chao Yue, The relationship between EMIC wave properties and proton distributions based on Van Allen Probes observations<br />
*Kristine Sigsbee, Simultaneous EMIC Wave Observations During a Van Allen Probes Conjunction<br />
*Hyomin Kim, [https://drive.google.com/open?id=1UmmYHxyIcH2FfQmRnffGNnCUNjH8S5qQ Observations of Particle Loss due to Injection-Associated EMIC Waves]<br />
*Yuri Shprits, Dips in PSD and how they are related to EMIC wave scattering<br />
*Richard Denton, Electromagnetic ion cyclotron waves in the dipole magnetosphere and pitch angle scattering of sub-MeV relativistic electrons by those waves<br />
*Qianli Ma, Pitch angle scattering of radiation belt electrons due to statistical EMIC wave spectra <br />
<br />
'''Recent advances in ULF wave research: Observations and HGSO coordination for ULF wave studies''': 1:30-3:00, Thursday, June 27 New Mexico room. <br />
Discussion of recent advances in ULF wave research, with focus on observations and a general discussion of Heliophysics/Geospace System Observatory coordination for ULF wave studies. We particularly encourage presentations describing (1) past or upcoming satellite conjunctions, (2) new data analysis tools, and/or (3) instrumentation/operation modes of interest to the ULF wave research community.<br />
*Seth Claudepierre/Matina Gkioulidou (invited), [https://drive.google.com/open?id=1bjENFjvkWSjLYA_EfFuTxhCyKtVlk7c1 Van Allen Probes: End of Mission and ULF wave studies]<br />
*Tetsuo Motoba, SuperMAG ULF wave tools<br />
*Sarah Vines, Determining EMIC wave vector properties through multi-point measurements: The wave curl analysis<br />
*Aaron Breneman, [https://drive.google.com/open?id=1NHlf9I_VV6vkx9id_NL4gE6YhEsSRxkG BARREL precipitation during solar wind driven ULF wave events] <br />
*Anatoly Streltsov, Effect of the Hall conductivity on generation of ULF waves<br />
*Mohammad Barani, [https://drive.google.com/open?id=1sCMVi0pbWsggpUUnotdl-4LO_hfGGFEc Estimating the Azimuthal Mode Structure of ULF Waves Based on Multiple GOES Satellite Observations]<br />
*Kazue Takahashi, L versus time structures of ground magnetic pulsations<br />
*Chih-Ping Wang, Earthward propagation of Pi2 waves<br />
<br />
'''ULF waves driven by wave-particle interactions and instabilities''': 3:30-5:00, Thursday, June 27 Lumpkins Ballroon South, discussion leaders: Xueling Shi and Hyomin Kim. <br />
Many ULF wave modes are closely related to instabilities and wave-particle interactions inside the magnetosphere: poloidal mode waves associated with particle injections, mirror/drift-mirror modes, buoyancy waves… These waves are often discussed in different contexts and in different GEM sessions. In addition, there have been relatively few studies of modeling internally generated ULF waves. The purpose of this session is to bring together modelers and observers to discuss the underlying processes that drive/damp these waves, their impact(s) on the M-I system (ring current, radiation belt, ionosphere,…), and the models/observations needed to better understand wave dynamics.<br />
*Xuzhi Zhou (invited), Acceleration of relativistic electrons by global-scale ULF waves<br />
*Tomotsugu Yamakawa (invited), [https://drive.google.com/open?id=1PEsq7oWVeXwwXn3JvE5ZvWQIIjfXwKRB Simulation of the excitation of storm-time Pc5 ULF waves by ring current ions based on the drift-kinetic model]<br />
*Frank Toffoletto, Normal Mode Analysis of Buoyancy Waves <br />
*Peter Chi, Observations of High-m Poloidal Waves along Magnetospheric Field Lines<br />
*Mike Hartinger, [https://drive.google.com/open?id=17do2Jxy01SJPmOloBxzTPID9ZzqaPGZI Observations of wave-particle interactions using MagEIS ultra-high resolution energy channels]<br />
*Jiang Liu, Ultralow Frequency Waves Deep Inside the Inner Magnetosphere Driven by Dipolarizing Flux Bundles, and their interaction with electrons<br />
*Kyle Murphy, TBD<br />
<br />
== 2019 Mini-GEM schedule ==<br />
UMEA will hold one session at the [https://gemworkshop.org/ 2019 mini-GEM] workshop<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 8, 2019, Nevada Room<br />
<br />
'''ULF wave modeling challenge event, HGSO coordination, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge and potential 2020 GEM sessions. The next part of the session is open for ULF wave research presentations discussing the ULF wave modeling challenge event or current/upcoming observation campaigns that are particularly useful for ULF wave studies. The last part of the session will be open for 1 slide ULF wave research highlights.<br />
<br />
*Mike Hartinger, [https://drive.google.com/open?id=1eQQc07g7nCTEGNwaTGesQx4ymIU6m815 UMEA updates and proposed sessions for 2020 GEM workshop]<br />
*Dong Lin, [https://drive.google.com/open?id=1SqiD1u69eyKNzLyrtvTWbMK05L5OrkrO LFM Simulations of ULF wave modeling challenge event]<br />
*Mohammad Barani, [https://drive.google.com/open?id=1fQAossqjQ-aBuGIBhDIW6I0_WEtHdQsF High-fidelity ULF wave azimuthal mode number structure estimation using MMS magnetometer observations], [https://www.youtube.com/watch?reload=9&v=W5Vya8pCjNE&t=1s link to related presentation on YouTube]<br />
*Chih-Ping Wang, [https://drive.google.com/open?id=19ugyLwyIp4YRuLpDuzT330IdbbFppQcr Inward propagation of Pi2 wave from plasma sheet to inner magnetosphere: THEMIS-GOES conjunctions]<br />
*Walk-ins<br />
<br />
== 2020 VGEM schedule ==<br />
UMEA will hold two sessions at the [https://gemworkshop.org/ 2020 Virtual GEM] workshop<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave modeling challenge event'''<br />
(Hosted by Xueling Shi)<br />
The first part of the session is for updates on research related to the challenge event (27-29 May 2017 storm): All modeling and observation talks welcome as long as they're related to this event. The last part of the session will be for short research highlights and oral summaries of posters.<br />
<br />
*Mike Hartinger (10 minutes), [https://drive.google.com/file/d/1Z5-g7-f-iKfpuWD03WVkA3Q2Rb9mbQfe/view?usp=sharing 2020 UMEA updates and overview of challenge event] <br />
*Simone Di Matteo (15 minutes), [https://drive.google.com/file/d/1acsSyIszg95muYurOkn0RmW0btblS3Ja/view?usp=sharing On some features characterizing the plasmasphere–magnetosphere–ionosphere system during the geomagnetic storm of 27 May 2017] <br />
*Bob McPherron (15 minutes), [https://drive.google.com/file/d/1pnqs49KamZF2BLgMdaoOroktmkBNnj1c/view?usp=sharing ULF wave activity at synchronous orbit during the May 27-29, 2017 Magnetic storm]<br />
*Boyi Wang (15 minutes), Ionospheric modulation by storm-time Pc5 ULF waves and wave structure detected by PFISR-THEMIS conjunctions<br />
*Lutz Rastaetter (15 minutes), [https://drive.google.com/file/d/1H9nTOrpQHX0NEau1eSktWjWM0KYbyfnM/view?usp=sharing Idealized ULF wave modeling challenge: high-resolution runs] <br />
*Mark Engebretson (5 minutes), [https://drive.google.com/file/d/1kvWyYe52OkTB7uUmKWRDSO305Jina-Yy/view?usp=sharing Nighttime magnetic perturbation events observed in Arctic Canada: Superposed epoch analysis]<br />
*Jinxing Li (5 minutes), Electron microinjections in association with compressional ULF waves: MMS observations<br />
*Xiaojia Zhang (5 minutes), [https://drive.google.com/file/d/1fKwf0t1ohDZIxF5NPtsgGKNP0cBEqECn/view?usp=sharing Spreading of Magnetopause-Generated Ultra-Low-Frequency Perturbations and the Associated Whistler Modulation] <br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave research highlights'''<br />
These will be contributed talks with priority given to graduate students and postdocs. The rationale is that virtual GEM will not provide the same type of networking opportunities as in-person GEM, and we'd like to balance this somewhat by giving more opportunities to students/postdocs to present their work on ULF waves.<br />
<br />
All presentations are 10 minutes including discussion:<br />
*Rachel Rice, Characteristics of Kelvin-Helmholtz Waves as Observed by MMS<br />
*Dong Lin, Idealized ULF wave simulations with GAMERA-RCM model<br />
*Boyi Wang, The interaction between ions and the ULF waves driven by a foreshock transient<br />
*Jayashree Bulusu, [https://drive.google.com/file/d/1YyRAo0I7Cf4-buxhTBXLxYaTWw7GX6SZ/view?usp=sharing Investigation of Pi2s during super quiet conditions from low and mid-latitudes]<br />
*Changzhi Zhai, High-m Poloidal ULF Wave Signatures in GPS TEC Data<br />
*Simone Di Matteo, [https://drive.google.com/file/d/1yYaidiu7O4a0Z8PeQXELiyatB03hJQyX/view?usp=sharing Power Spectral Density Background Estimate and Signal Detection via the Multitaper Method] <br />
*Yixin Hao, [https://drive.google.com/file/d/1iIf5QpLE9t7IThiIPNwhCoRHrbFDoR8R/view?usp=sharing Simultaneous observations of localized and global drift resonance]<br />
*Mohammad Barani, [https://drive.google.com/file/d/1it2y8JXJzrbjmt56MWia7ffbei63gIwC/view?usp=sharing Effects of realistic mode number structure on radial diffusion estimation]<br />
<br />
== 2021 Virtual Mini-GEM schedule ==<br />
UMEA will hold one session at the Virtual Mini-GEM Worskhop.<br />
<br />
'''Time''': 12:00-14:00 US Eastern Time, Friday, January 22, 2021<br />
<br />
'''ULF wave modeling challenge event, planning for 2021 GEM meeting, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge event, including an invited talk by Naoko Takahashi. The next part of the session will be for open discussion on potential 2021 GEM sessions. The final part of the session will be open for ULF wave research highlights. <br />
*Mike Hartinger, Brief Introduction to Challenge event<br />
*Naoko Takahashi, Relative contribution of ULF waves and whistler-mode chorus to the radiation belt variation during May 2017 storm<br />
*Ian Kelley, GPS TEC response during the ULF wave challenge event<br />
*Mike Hartinger, ULF wave geoelectric fields during the challenge event<br />
*All, Planning for 2021 GEM sessions<br />
*Bob Lysak, FLRs in Jupiter's magnetosphere<br />
*Toshi Nishimura, Upcoming conjunctions for ULF wave studies<br />
*Toshi Nishimura, PFISR and all-sky imager observations of Pc5 ULF waves during substorms<br />
*Francesco Lena, Detection of Hertz Frequency Multiharmonic Field Line Resonances at Low-L (L=1.1–1.5) During Van Allen Probe Perigee Passes<br />
<br />
== 2021 VGEM schedule ==<br />
UMEA will lead four sessions at the [https://gemworkshop.org/ 2021 Virtual GEM] workshop.<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''Recent Advances in ULF Wave Research'''<br />
This session will start with a short update on the ULF wave modeling challenge. The rest of the session will be for recent advances in ULF wave research, with priority given to presentations (1) with data or modeling results related to the challenge event (27-28 May 2017) or (2) discussions of ULF wave data-model comparisons.<br />
<br />
*Mark Engebretson, Pc1 waves / MMS k-vector technique<br />
*Michelle Salzano, IPDP-Pi1B - modeling drift shell splitting<br />
*Yangyang Shen, Tens to hundreds of keV electron precipitation driven by kinetic Alfven waves during an electron injection<br />
*Chih-Ping Wang, Statistical results for Pi2 waves associated with the plasma sheet BBFs observed by THEMIS-RBSP pair with RBSP inside or outside the plasmasphere<br />
*Tom Elsden, Modelling the Varying Location of Field Line Resonances During Geomagnetic Storms<br />
*Denny Oliveira, Factors controlling shock-induced magnetospheric ULF waves<br />
*Short Oral Summaries of Posters<br />
*Open Discussion<br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''The Future of ULF Wave Research'''<br />
This session will begin with a review of the ULF wave FG’s original goals, research topics covered in the last 5 years and related activities, and unresolved questions and research objectives. The remainder of the session is open for 1-2 slide presentations on major unresolved questions in ULF wave research. We particularly encourage presentations (1) exploring topics that could be addressed by current/future GEM FG or decadal survey white paper, (2) highlighting major questions or obstacles preventing progress in ULF wave research (e.g., missing data in a critical region, missing theory/modeling component), (3) discuss how ULF wave researchers can best take advantage of future satellite missions, ground-based infrastructure, computing advances/big data/AI, and modeling/theory advances. <br />
<br />
*Mike Hartinger, Retrospective on the ULF wave focus group<br />
*Martin Archer, Surface Waves<br />
*Tom Elsden, 3D FLRs<br />
*Solene Lejosne, Wave-Particle Interactions<br />
*Ayomide Olabode and Michelle Salzano, Ground Magnetic Perturbations<br />
*Xueling Shi, Applications of TEC observations<br />
*Open discussion, walk-in presentations welcome<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Tuesday, July 27, 2021<br />
<br />
'''ULF Wave M-I Coupling Processes'''<br />
This session is joint with the IEMIT FG. The session will begin with a review of the role of ULF waves on M-I coupling. The remainder of the session is open for 5-min presentations on ULF wave topics related to M-I coupling, e.g., auroral acceleration, particle precipitation, geomagnetic perturbations, GICs, etc. More questions and discussions will be left to the end.<br />
<br />
*Hui Zhang, Role of ULF waves in M-I coupling<br />
*Chaosong Huang, Global Pc5 pulsations<br />
*Tetsuo Motoba, Daytime Pc5 Diffuse Auroral Pulsations and Their Association With Outer Magnetospheric ULF Waves<br />
*Anton Artemyev, ULF driven precipitations as observed by ELFIN<br />
*Mark Engebretson, Magnetic perturbation events related to GICs<br />
*Denny Oliveira, IP shock impact angle control of local intense dB/dt variations during substorm<br />
*Xueling Shi, Sources of Intense Geoelectric Fields in the United States<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Friday, July 30, 2021<br />
<br />
'''Coupling Between ULF Waves and Cold Plasma'''<br />
This session is joint with the Cold Plasma FG. The session will begin with a review of mechanisms that couple cold plasma populations to ULF waves by Richard Denton. The remainder of the session is for contributed presentations (likely 2-3 slides) describing (1) recent advances in our understanding of cold plasma interactions with ULF waves and (2) outstanding questions that could be discussed in future cold plasma FG sessions.<br />
<br />
*Richard Denton, ULF wave interactions with cold plasma<br />
*Alex Degeling, Modeling ULF Waves Trapped in a Plasmaspheric Density Plume <br />
*Eun Hwa Kim, Can Electromagnetic Ion Cyclotron Waves Propagate to the Ground?: 2D Full Wave Simulation<br />
*Bob Lysak, Relation of plasmaspheric cavity modes to Pi2 pulsations in an asymmetric plasmasphere<br />
*Yixin Hao, ULF wave-cold plasma interaction<br />
*Mike Hartinger, The relationship between global ULF wave properties and radial Alfven speed profile</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=FG:_ULF_Wave_Modeling,_Effects,_and_Applications&diff=5347FG: ULF Wave Modeling, Effects, and Applications2021-07-21T23:40:35Z<p>Mdhartin: /* 2021 VGEM schedule */</p>
<hr />
<div>''Focus Group Leaders:''<br />
* Michael Hartinger, Space Science Institute (mhartinger@spacescience.org)<br />
* Kazue Takahashi, Applied Physics Laboratory<br />
* Alexander Drozdov, UCLA<br />
* Maria Usanova, University of Colorado<br />
* Brian Kress, University of Colorado and NOAA-NCEI<br />
* Xueling Shi, Virginia Tech<br />
<br />
Focus Group term: 2016-2021<br />
<br />
Join the discussion on [https://gemworkshop.slack.com/archives/C016U8PA7TJ Slack], including discussion related to the 2020 GEM and 2021 miniGEM meetings.<br />
<br />
== Science Questions ==<br />
Our group aims to address the following broad science questions: What mechanisms excite ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in Magnetosphere-Ionosphere coupling?<br />
<br />
== Focus Group Proposal ==<br />
[http://gem.epss.ucla.edu/mediawiki/FGproposals/Hartinger-UMEA.pdf ULF Wave Modeling, Effects, and Applications (UMEA)] (December 2015)<br />
<br />
== ULF wave modeling challenge ==<br />
<br />
One part of the ULF wave modeling challenge involves running several global MHD simulation codes with identical, idealized solar wind driving conditions (sinusoidal density variation), then comparing the resulting global ULF wave properties and discussing differences in the context of differing boundary conditions, grids, etc. More details can be found here: [http://ccmc.gsfc.nasa.gov/challenges/ULF/ ULF wave modeling challenge at CCMC]<br />
<br />
Another part of the ULF wave modeling challenge involves data-model comparisons during specific events. At the 2017 GEM and mini-GEM meetings several [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing challenge events] were proposed, including two [https://drive.google.com/open?id=1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI 2017 events].<br />
<br />
We have selected the [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing 27-28 May 2017 storm event] for the ULF wave modeling challenge due to favorable solar wind coverage and availability of numerous satellites (MMS, ARASE, THEMIS, RBSP, Cluster, GOES, ...) and ground-based observations for global context and multi-point wave observations. We will be continuously updating this [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing overview presentation] with observation and modeling results. Model output and observations for the challenge event - including global densities from the NURD model - can be obtained [https://drive.google.com/drive/folders/1Bk9vJtbEHd-vSuYqr3UG9NGCqaBn69hw?usp=sharing here]. If you would like to add additional observations/model output to the google drive or overview pdf, please contact the co-chairs.<br />
<br />
CCMC has run several global MHD simulation codes using the driving conditions of the ULF wave challenge event. At the 2019 GEM meeting and future GEM/mini-GEM meetings, we plan data-model comparisons to identify where model/data don't agree and discuss these differences in the context of incorrect boundary conditions (e.g., compare model ionosphere to local PFISR-derived conductivities), missing physics, numerical dissipation, etc. Please contact CCMC/Lutz Rastaetter and model developers before using this simulation output in publications:<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_SWMF_040319_1 Space Weather Modeling Framework simulation], IMF Bx=0 (other parameters as in event). Full 2-day event, 3D output every 15s, virtual ground magnetometer. If you haven't used CCMC visualization tools before, be aware that you shouldn’t submit multiple visualization requests at the same time, as this could crash CCMC server for these large 3D files. Instead, request a batch process or wait for the first visualization request to complete. The easiest/fastest visualization is to follow the link above and scroll down until you see the virtual ground magnetometer and satellites list. Click on the magnetometer/satellite of interest, then select which parameter(s) to display/download. <br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_1 OpenGGCM run 1] – IMF Bx = -7 nT. Smaller time range available on 28 May 0400-1000, only virtual ground magnetometer from POKR/CMO available now. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_1 Full results including virtual satellite.]<br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_2 Open GGCM run 2] – IMF Bx = 0 nT (as in SWMF simulation). Same format as other OpenGGCM simulation. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_2 Full results including virtual satellite.]<br />
<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_LFM_051519_2 LFM simulation]<br />
<br />
== ULF wave HGSO event coordination ==<br />
Our group is helping coordinate analysis of conjunction events for ULF wave studies, including requesting instrument operation modes favorable for ULF wave analysis.<br />
<br />
The [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] 0400-0800 UT conjunction event includes several satellites (THEMIS, Cluster, Van Allen Probes, GOES, Geotail, FIREBIRD, METOP, POES, DMSP) in the pre-midnight sector during a conjunction with the Poker Flat Incoherent Scatter Radar and several SuperDARN radars. PFISR was operating throughout the conjunction, several SuperDARN radars were in high resolution sampling modes, and several satellites were operating in fast survey/burst mode. The conjunction is favorable for modeling and observation studies of magnetosphere-ionosphere coupling via ULF waves, wave-particle interactions, global ULF wave properties, and many other topics. [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing This pdf] summarizes preliminary results<br />
<br />
Several web-based tools are available for identifying future conjunctions, including [https://ergsc.isee.nagoya-u.ac.jp/analysis/index.shtml.en upcoming conjunctions between ARASE and Van Allen Probes/ground] and conjunctions between [https://swarm-aurora.com/conjunctionFinder/ SWARM/all-sky cameras].<br />
<br />
'''There are also many specialized, web-based tools for ULF wave analysis (please contact FG co-chairs to add to this list):'''<br />
<br />
*SuperMAG ground-based magnetometer [http://supermag.jhuapl.edu/rBrowse/?start=2001-01-30T05%3A00%3A00.000Z&step=14400 global ULF wave plots]<br />
<br />
*CARISMA ground-based magnetometer [http://www.carisma.ca/carisma-data/fgm-pc1-power-spectra Pc1 power spectra] and [http://www.carisma.ca/carisma-data/fgm-pc5-power-spectra Pc5 power spectra]<br />
<br />
*Augsburg College/UNH Arctic and Antarctic [http://space.augsburg.edu/searchcoil/index.html search coil magnetometer survey plots] <br />
<br />
*Augsburg College (hosted by ViRBO) [http://virbo.org/Augsburg/ULF ULF wave index]<br />
<br />
*[http://vt.superdarn.org/tiki-index.php?page=DaViT+DynFFT SuperDARN wave analysis] and [http://vt.superdarn.org/tiki-index.php?page=Data+Inventory identification of high time-resolution SuperDARN beams]<br />
<br />
*THEMIS satellite fluxgate magnetometer [http://themis.ssl.berkeley.edu/summary.php?year=2014&month=05&day=11&hour=0024&sumType=thmfgmdyn&type=themislinfgl wave survey plots]<br />
<br />
*National Institute of Polar Research inter-hemispheric comparisons of Syowa/Iceland [http://iugonet0.nipr.ac.jp/web/induction/ induction magnetometer spectra]<br />
<br />
*[http://mist.nianet.org/Satellite_Conjunctions/ Inter-hemispheric comparisons] during satellite conjunctions with Arctic(DTU Space)/Antarctic(Virginia Tech) magnetometers<br />
<br />
*[http://kho.unis.no/uaf_msp.htm Meridian Scanning Photometer plots] from [http://kho.unis.no/ UNIS/Kjell Henriksen Observatory], for context on open-closed boundary and ULF modulation of the aurora<br />
<br />
== Summary Reports for GEM workshops ==<br />
[https://drive.google.com/file/d/1QLH8FcKm3-f25aLwoetOuYJGZu5sPgN3/view?usp=sharing 2016 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1SRIv6Gn-NNnqGPHGvjvZQcdDml2GQpv_/view?usp=sharing 2017 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1clzFHWrxC9hvYf9kECJx4bPn9xn8WwsG/view?usp=sharing 2018 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1_fLwZFCLBTBHnq8HkaFPWUvaIY81E-t0/view?usp=sharing 2019 UMEA FG report]<br />
<br />
== 2016 Mini-GEM schedule ==<br />
UMEA will hold one session at the [http://www.cpe.vt.edu/gem-mini/ mini-GEM workshop]: ULF wave modeling, effects and applications updates<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 11, 2016<br />
<br />
'''Location''': Oregon Room, Holiday Inn Golden Gateway<br />
<br />
'''Schedule:'''<br />
<br />
'''First Half (12:00 – 12:45): 3 talks (~15 min each):'''<br />
<br />
*1. Mike Hartinger -- [http://gem.epss.ucla.edu/mediawikiwiki/images/7/7c/UMEAoverview_miniGEM2016.pdf Overview of UMEA current activities, discussion of future plans]<br />
<br />
*2. Lutz Rastaetter -- ULF wave modeling challenge at CCMC<br />
<br />
*3. Robert Rankin -- Modeling the global properties and ground-based signatures of ULF waves and wave-particle interactions<br />
<br />
'''Second Half (12:45 – 13:30): (5 minutes each, 1-2 slides, order of talks may change):'''<br />
<br />
*1. Xueling Shi -- SuperDARN THEMIS Mode Data Tracker & ULF Wave Detection<br />
<br />
*2. Richard Denton -- Mass density inferred from Alfven wave frequencies measured by RBSP<br />
<br />
*3. Lars Daldorff -- ULF waves, particle transport and energization in global MHD simulations with plasmasphere<br />
<br />
*4. Alexander Drozdov -- Dependence of radiation belt simulations to assumed radial diffusion rates tested for two empirical models of radial transport<br />
<br />
*5. Bob Lysak -- Quarter Wavelength Modes<br />
<br />
*6. Walk-ins<br />
<br />
== 2017 GEM meeting schedule ==<br />
UMEA will hold four sessions session at the 2017 GEM meeting<br />
<br />
'''UMEA Update and plans, general discussion of ULF wave modeling and observations''': 10:30-12:15, Monday, June 19, Port VI-VIII<br />
<br />
*1. Michael Hartinger -- [https://drive.google.com/file/d/0B57bC_V89WW6dnBCbmFFSkFURUk/view?usp=sharing UMEA update]<br />
<br />
*2. Toshi Nishimura -- PFISR measurements during the 2 May 2017 HGSO event<br />
<br />
*3. Xueling Shi -- [https://drive.google.com/file/d/0B57bC_V89WW6OUcyNGNWM0piWnc/view?usp=sharing A Survey of Ionospheric ULF Wave Signatures in SuperDARN Data: Occurrence Statistics and Driving Mechanisms]<br />
<br />
*4. Tetsuo Motoba -- Dayside Auroral Pulsations<br />
<br />
*5. Brian Kress and Rob Redmon -- Newly Available GOES 8-16 Particle and Magnetic Field Measurements<br />
<br />
*6. Dick Wolf -- Theory of magnetospheric buoyancy waves<br />
<br />
<br />
'''ULF wave interactions with the radiation belt and ring current populations''': 1:30-3:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Rualdo Soto-Chavez -- Generation of Pc5-ULF wave by the drift-mirror instability<br />
<br />
*2. Zhiyang Xia -- [https://drive.google.com/file/d/0B57bC_V89WW6Y1VQRXJKd3Qya3c/view?usp=sharing Eigenmode analysis of compressional poloidal modes in a self-consistent magnetic field]<br />
<br />
*3. Mark Engebretson -- [https://drive.google.com/file/d/0B57bC_V89WW6QlM3LU9lTVVwZ1E/view?usp=sharing Statistical study of the upper frequency cutoff of helium band EMIC waves observed by the Van Allen Probes]<br />
<br />
*4. Alexander Drozdov -- Radial diffusion and EMIC waves in the long-term simulation and in the case study<br />
<br />
*5. Seth Claudepierre -- Global MHD simulations driven by idealized Alfvenic fluctuations in the solar wind<br />
<br />
*6. Michael Hartinger -- Radiation belt response to large scale, monochromatic ULF waves: LANL-GEO observations<br />
<br />
<br />
'''ULF wave modeling, including CCMC modeling challenge, Joint with MMV''': 3:30-5:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Lutz Rastaetter -- CCMC ULF wave modeling challenge update and challenge events<br />
<br />
*2. Scot Elkington -- [https://drive.google.com/file/d/0B57bC_V89WW6WUxJcGNqbUU2bzA/view?usp=sharing ULF wave activity and diffusion coefficients during QARBM challenge events], [https://drive.google.com/file/d/0B3MAHZknMumcem40dTVyNVRFbE0/view?usp=sharing Ashar F. Ali’s write-up on Event-Specific Radial Diffusion Coefficients Derived Using RBSP EMFISIS and EFW Data]<br />
<br />
*3. Katariina Nykyri -- KHI challenge events<br />
<br />
*4. All -- Open Discussion of Challenge Events<br />
<br />
*5. Doga Ozturk -- Effects of Increased Solar Wind Dynamic Pressure on the Coupled M-I system under different IMF By<br />
<br />
*6. Kazue Takahashi -- Cavity mode Van Allen Probe observations<br />
<br />
*7. Bob Lysak -- Cavity mode models<br />
<br />
*8. Tom Elsden -- [https://drive.google.com/file/d/0B57bC_V89WW6SDNnYjdwSVM3Y3c/view?usp=sharing The Theoretical Foundation of 3D Alfven Resonances: Time Dependent Solutions]<br />
<br />
<br />
'''Magnetosphere-Ionosphere coupling processes associated with localized disturbances caused by dayside kinetic phenomena: Joint with “Dayside Kinetic Processes…” and “Testing proposed links…”''': 3:30-5:00, Tuesday, June 20, Port VI-VIII<br />
<br />
*1. Peter Chi -- Magnetospheric and ionospheric responses to a localized disturbance: The macroscopic view<br />
<br />
*2. Hui Zhang -- Magnetospheric ULF waves generated by foreshock transients<br />
<br />
*3. Hui Zhang -- Modeling challenges in simulating HFA geoeffects<br />
<br />
*4. Boyi Wang -- Optical signatures of dayside ULF waves during magnetosheath high-speed jets<br />
<br />
*5. Katariina Nykyri -- The effect of magnetosheath seed spectrum on KH evolution and associated mass transport<br />
<br />
*6. Kyle Murphy -- A statistical study of discrete ULF wave power observed by GOES<br />
<br />
== 2017 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2017 mini-GEM] workshop<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 10, 2017, Canal/50<br />
<br />
'''ULF wave modeling challenges'''<br />
Discussion of final plans for the CCMC ULF wave modeling challenge with idealized drivers, as well as open discussion of new challenges involving data-model and model-model comparisons during [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing specific events]. Please come with 1-2 slides showing examples of such comparisons, ideas for improving ULF wave models, and/or ideas for specific modeling challenges/sessions relevant to the FG science questions.<br />
<br />
*1. 12:00-12:30 Overview of CCMC ULF wave modeling challenge with idealized driving conditions, description of challenge events and targets proposed during 2017 GEM meeting and November modeling telecon (Michael Hartinger, Lutz Rastaetter)<br />
*2. 12:30-13:30 [https://drive.google.com/file/d/1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI/view?usp=sharing Open discussion of challenge events and targets (Allison Jaynes,] Robert Rankin), select challenge event to be analyzed at 2018 GEM<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 10, 2017, Canal/50<br />
<br />
'''Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
Discussion of HGSO coordination for ULF wave studies. This includes updates on the [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] conjunction event followed by an open discussion of conjunctions and datasets that are particularly useful for ULF wave studies, including upcoming RBSP-ERG-ground conjunctions. Please come with 1-2 slides showing examples of datasets and past/upcoming conjunctions ideal for addressing the FG science questions: What excites ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in MI coupling? We welcome discussion from both modelers and observers of the types of conjunctions and observations that are most needed to address these questions.<br />
<br />
*1. 13:50-14:20 Recently available datasets and conjunctions for ULF wave studies (Chih-Ping Wang, Xueling Shi, Sana Qamar, Rob Redmon)<br />
*2. 14:20-14:35 Updates on 2 May 2017 conjunction event (Toshi Nishimura, Michael Hartinger)<br />
*3. 14:35-15:20 Upcoming ARASE-RBSP conjunctions (Yoshi Miyoshi), Open Discussion of HGSO coordination for ULF wave studies (Toshi Nishimura, Kazue Takahashi)<br />
<br />
== 2018 GEM meeting schedule ==<br />
UMEA will hold [https://drive.google.com/file/d/1uh-ZOICfOBzNs9KLe3saFMnY9P-oqV9R/view?usp=sharing four sessions] at the 2018 GEM meeting. <br />
<br />
'''ULF waves during particle injections and dipolarizations, joint with Dipolarization and Substorm FG''': 10:30-12:00, Monday, June 18<br />
<br />
*1. Discussion of Session Topic<br />
<br />
*2. Bob Lysak -- [https://drive.google.com/file/d/1w8o5aGYbLsIEy2YmaoosF3WNeWTuLE59/view?usp=sharing Ionospheric Conductivity Effects on Pi2 Pulsations]<br />
<br />
*3. Mike Hartinger -- [https://drive.google.com/file/d/1tcJgspMQDkhPPvSTng4eZP7h-j7jvVR7/view?usp=sharing Pi2 waves during an extended period with stable plasmapause location and variable geomagnetic activity]<br />
<br />
*4. Toshi Nishimura -- Ionosphere observations of Pc5 ULF waves during 2018 HGSO conjunctions<br />
<br />
*5. Xueling Shi -- Long-lasting poloidal ULF waves observed by multiple satellite and SuperDARN HF radars<br />
<br />
*6. Jian Yang -- New RCM-I simulation results for buoyancy waves<br />
<br />
*7. Dick Wolf -- [https://drive.google.com/file/d/1vTkH_lmgXCcvkAYU6HgO_R5ZgIdGji3O/view?usp=sharing Theory of Buoyancy Waves] <br />
<br />
*8. Yan Song -- What Causes the Substorm Expansion Phase and Associated ULF Waves?<br />
<br />
<br />
'''Recent advances in ULF wave research''': 1:30-3:00, Monday, June 18 <br />
<br />
*1. [https://drive.google.com/file/d/1ms9kDYlBhCnxti8z9o9Lx8y0PPmkWu_-/view?usp=sharing Overview of focus group goals and recent progress]<br />
<br />
*2. Brief ULF wave poster overviews (Tuesday posters)<br />
<br />
*3. Kazue Takahashi -- Observation of nightside ULF waves by RBSP and Arase<br />
<br />
*4. Tom Elsden -- Broadband Excitation of 3D Alfven Resonances (FLRs) in an MHD Waveguide<br />
<br />
*5. Boyi Wang -- 2-D structure of foreshock driven Pc5 ULF waves observed by the THEMIS satellites and South Pole imager<br />
<br />
*6. Xiaochen Shen -- Foreshock transient-driven ultra-low frequency (ULF) waves with dawn-dusk asymmetry of wave power<br />
<br />
*7. Chih-Ping Wang -- ULF waves possibly driven by tailward propagation of foreshock perturbations<br />
<br />
*8. Allison Jaynes -- [https://drive.google.com/file/d/1EC3yPvda8fA0LUr9qTfszluNDLs6LdHT/view?usp=sharing Fast diffusion of ultra-relativistic electrons in the outer radiation belt: 17 March 2015 storm event]<br />
<br />
*9. Rualdo Soto -- The Drift-Mirror instability in Earth's inner magnetosphere<br />
<br />
*10. Martin Archer/Mike Hartinger -- [https://drive.google.com/file/d/1t4fmiiZP9wdJ-40TISEC7BuicEd64m7W/view?usp=sharing Results from Sonification and Citizen Science of Magnetospheric ULF waves]<br />
<br />
<br />
'''EMIC wave generation, propagation, and interactions''': 3:30-5:00, Monday, June 18 (discussion leaders: Alexander Drozdov and Maria Usanova)<br />
[https://drive.google.com/open?id=15rjO2UxK8sqdOfHXunDSLv5q-z51vwuD Session Summary]<br />
<br />
*1. Dedong Wang -- EMIC wave observations from Van Allen Probes and MMS<br />
<br />
*2. Mark Engebretson -- [https://drive.google.com/file/d/1jkhN45ezaeQyeAA7HmVuYOF_izjAMYra/view?usp=sharing Van Allen Probes, and ground based magnetometer observations of EMIC waves associated with a modest interplanetary shock]<br />
<br />
*3. Maria Usanova -- MMS Observations of Harmonic Electromagnetic Cyclotron Waves<br />
<br />
*4. Naritoshi Kitamura -- Direct measurements of energy transfer from hot H+ to EMIC waves by MMS<br />
<br />
*5. Bruce Fritz -- ELF Whistler Dependence on a Sunlit Ionosphere<br />
<br />
*6. Chae-Woo Jun -- EMIC waves associated with/without the injection inside/outside the plasmapause<br />
<br />
*7. Hyomin Kim -- Injection-associated EMIC waves<br />
<br />
*8. Sebastian Cervantes -- EMIC wave parameterization in radiation belt reanalysis<br />
<br />
*9. Maria Usanova -- Long-term correlation of EMIC wave activity and radiation belt flux variations<br />
<br />
*10. Alexander Drozdov -- The effects due to the EMIC waves in the VERB code modeling<br />
<br />
<br />
'''ULF wave modeling challenge, joint with MMV FG''': 3:30-5:00, Wednesday, June 20<br />
<br />
*1. Brief ULF wave poster overviews (Thursday posters)<br />
<br />
*2. Mike Hartinger: [https://drive.google.com/file/d/1g2cL_qaDbASLH5DoJ_auJKQCbG96sdQn/view?usp=sharing ULF wave modeling challenge event overview, discussion of challenge targets (continuing during session)]<br />
<br />
*3. Mariko Teramoto: ARASE ULF wave observations during challenge event<br />
<br />
*4. Sam Califf: [https://drive.google.com/file/d/1CvbVG2Dp8e6RokJE0501L8-LU9ipdUFT/view?usp=sharing GOES-14 and 16 observations during the ULF wave challenge event, Data Discussion]<br />
<br />
*5. Toshi Nishimura: [https://drive.google.com/file/d/1cavbwNU4LoAigIsGvGF_UtiTaM97dFtP/view?usp=sharing PFISR measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*6. Dogacan Su Ozturk: [https://drive.google.com/file/d/1MmP3D_4eeJbEVJzUyx8fAtFsG3b0grzy/view?usp=sharing The modeling study of the 27 March 2017 Event] <br />
<br />
*7. Xiaochen Shen: GEM Challenge Event: ULF wave-related electron and proton precipitation/negative dynamic pressure pulse driven EMIC wave<br />
<br />
*8. Tetsuo Motoba: [https://drive.google.com/file/d/1544ngYBXat-zUC1gZqo0lMVUZtYqxUqH/view?usp=sharing Auroral measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*9. Others discuss when their figures/summary plots in event overview pdf are presented…<br />
<br />
== 2018 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2018 mini-GEM] workshop<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF modulation of the aurora, Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
This session focuses on understanding a variety of mechanisms responsible for ULF modulations of the aurora. Eric Donovan will give a 30 minute invited presentation, with the rest of the session open for presentations and discussion on this topic. We welcome discussion of ULF aurora generation mechanisms and the types of conjunctions, observations, and models needed to understand the zoo of ULF auroral modulations. We also welcome discussion of upcoming observation campaigns/satellite conjunctions that would be particularly useful for ULF wave studies.<br />
<br />
*1. Eric Donovan<br />
*2. Tetsuo Motoba<br />
*3. Slava Pilipenko<br />
*4. Boyi Wang / Toshi Nishimura<br />
*5. Open discussion<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF wave modeling challenge and research highlights'''<br />
The first part of the session is for updates on the idealized ULF wave modeling challenge and potential 2019 GEM sessions. The next part of the session is for observation/model presentations relevant to the 27-28 May 2017 ULF wave challenge event and final selection of the modeling challenge targets – all types of models and observations welcome. The last part of the session will be open for 1 slide ULF wave modeling and observation research highlights. <br />
<br />
*1. [https://drive.google.com/file/d/1vqxxn3gYXfzDKABe9yRwMgR8vbKRua_j/view?usp=sharing 2019 GEM session ideas] (Mike Hartinger)<br />
*2. Idealized Modeling Challenge (Lutz Rastaetter)<br />
*3. ULF wave modeling challenge event updates: Rob Redmon/Sam Califf/Mike Hartinger (GOES magnetometer observations), Yoshi Miyoshi (Arase magnetic field observations), [https://drive.google.com/file/d/1B6DGHvAzUhBG79eUJWPsUD2BSjGhQrrw/view?usp=sharing Hyomin Kim (wave-particle interaction)], [https://drive.google.com/file/d/180iaBGrbCPf1rYy6uVZn8OsLTOFREqsD/view?usp=sharing Dong Lin (LFM simulations)]<br />
*4. General ULF wave modeling: [https://drive.google.com/file/d/10gUKitjDPnbV_g9r9CAHDFeE365wUQQd/view?usp=sharing Yaireska Collado-Vega (vortex identification/surface waves)], [https://drive.google.com/file/d/1kkGlYKoYHr7XZf5nT3kaXITUD3tpNynJ/view?usp=sharing Alex Degeling (ULF wave radiation belt interactions)] <br />
*5. Research highlights (1-slide): Rualdo Soto (Van Allen Probes and Cluster satellites’ observations of Pc 5 (mHz) magnetic pulsations), [https://drive.google.com/file/d/1V_Joz3psBQbCBoVKRYaOKdKIEoZ72WgQ/view?usp=sharing Xueling Shi (SuperDARN ULF waves)], Martin Archer (magnetopause surface eigenmodes), [https://drive.google.com/file/d/1Mmi3VfERKswG3dpYidVUgOQra2UG-9s2/view?usp=sharing Martin Archer (sonification)]<br />
<br />
== 2019 GEM meeting schedule ==<br />
<br />
UMEA will hold [https://drive.google.com/file/d/1KmH9XqxrisGH_g4s0ny7QDkutmv7tKlr/view?usp=sharing six sessions] at the 2019 GEM meeting, four joint with other focus groups. <br />
<br />
'''Recent advances in ULF wave research: Modeling''': 3:30-5:00, Monday, June 24 New Mexico room, joint with MMV. <br />
Discussion of advances in ULF wave research, with focus on modeling and modeling challenges (e.g., boundary conditions, grid resolution, missing physics). This includes models of the effects of ULF waves on inner magnetosphere dynamics and wave-particle interactions. We particularly encourage presentations focused on the ULF wave modeling challenge, including data-model comparisons for the 27-28 May 2017 challenge event.<br />
*Mike Hartinger, [https://drive.google.com/open?id=1Drkq9epsQWY4AjpV1EF-8Ci_kaKyN2jk FG updates]<br />
*Jesper Gjerloev, SuperMAG ULF updates<br />
*Tetsuo Motoba, High-time resolution SuperMAG ULF data products<br />
*Lutz Rastaetter, ULF wave modeling challenge<br />
*Maulik Patel, MHD test particle simulations of the 16 July 2017 shock compression of the dayside magnetopause <br />
*Bob McPherron, Pi 2 pulsations during the storm of May 27-29 2017, The Statistics of Pi 2 Pulsation Occurrence during a Major Magnetic Storm<br />
*Dong Lin, LFM simulations of surface waves during challenge event<br />
<br />
'''The ULF response to dayside transients with different temporal/spatial scales''': 10:30-12:00, Wednesday, June 26 Santa Fe room, discussion leader: Tom Elsden, joint with Dayside Kinetics and IHMIC. <br />
Dayside transient phenomena associated with kinetic scale processes cause a variety of ULF wave behaviour in the magnetosphere and further, contribute to significant magnetospheric asymmetries. The aim of this session is to bring together the expertise of the three focus groups listed above, to answer outstanding questions at the overlap of these disciplines. It is hoped that such a discussion should prove fruitful enough to generate a JGR commentary paper in this area. With this in mind, speakers in this session are encouraged to give their views as to the current state of the subject area, and how outstanding problems may be addressed in the future.<br />
* Tom Elsden - Session introduction and goals<br />
* Ferdinand Plaschke (invited) - An overview of dayside transients causing ULF waves<br />
* Tom Elsden - 3D ULF wave modeling with MHD<br />
* Boyi Wang - The role of magnetosheath high-speed jets in triggering magnetospheric Pc5 ULF waves<br />
* Bob Lysak - Ionospheric asymmetries and quarter-wave modes<br />
* Xueling Shi - Conjugate Observations of ULF Waves during an Extended Period of Radial IMF<br />
* Michael Hartinger - Localized magnetopause surface wave activity and [https://drive.google.com/open?id=1d8lDB-FPGa6VErL37aZz3xZSgpNvxbk0 modeling challenges]<br />
* Discussion<br />
<br />
'''ULF wave modeling challenges associated with Magnetosphere-Ionosphere-Thermosphere Coupling''': 3:30-5:00, Wednesday, June 26 Lumpkins Ballroon South, joint with IEMIT, discussion leader Doga Ozturk. <br />
ULF waves play important roles in M-I-T coupling, driving current systems that can lead to I-T system heating and geomagnetically induced currents. This session aims to bring together researchers from the ULF wave and M-I-T coupling research communities to discuss challenges associated with realistically modeling M-I-T coupling processes associated with these waves. The session will begin with a discussion of the ULF wave challenge event; comparisons between modeled / observed (PFISR) conductivities and modeled/observed ULF wave properties will be presented, and the community will be invited to discuss explanations for model/observation differences. The rest of the session is open for short presentations on ULF wave modeling challenges related to M-I-T coupling, including topics such as specifying conductivity and effect of conductivity on wave properties, effect of ionospheric boundary conditions in global simulations, boundary conditions and feedback between magnetosphere and ionosphere, capturing role of waves in ionospheric-thermospheric heating.<br />
# (Invited) Boyi Wang: Ionospheric modulation by Pc5 ULF waves and wave structure detected by PFISR<br />
# (Invited) Xiaojia Zhang / Anton Artemyev: ULF modulation of VLF waves and precipitation<br />
# Doga Ozturk: Update from GEM/CEDAR joint session, [https://drive.google.com/open?id=1WsSf4PFHiBo_iZ3za-bhUWKHFJd4MNQX ULF Wave activity and Meso-Scale electric field variability at high-latitude I-T system]<br />
# Anatoly Streltsov: ULF waves generated by the MI interactions near the plasmapause<br />
# Mergen Alimaganbetov: ULF waves observed in space and on the ground at high and low latitudes<br />
# Mark Engebretson: [https://drive.google.com/open?id=16WbDl3rnuehoifUqFj4oMw_Tn5WhEFlU Multi-Instrument Observations of Nighttime Impulsive Magnetic Events]<br />
# Bob Lysak: Modeling ionospheric conductance and ground magnetic fields<br />
# Yan Song: ULF wave, M-I coupling and Auroral formation.<br />
<br />
[https://drive.google.com/open?id=1wGpZPk086Zs54uWGtYiRjByPmVCFnsSv '''EMIC waves''']: 10:30-12:00, Thursday, June 27 New Mexico room, joint with Radiation Belt. <br />
The generation mechanisms of Electromagnetic Ion Cyclotron (EMIC) waves, their effects on energetic electrons and ions, and their propagation through the magnetosphere-ionosphere system are challenging topics that involve multiple GEM research areas. Despite several years of observations and improved global wave statistics, there are many unresolved questions that limit further investigation, modeling and prediction of dynamical processes in the inner magnetosphere involving EMIC waves. Hence, we invite short presentations that discuss recent findings in different areas of EMIC wave research and identify observations/models most needed to address unresolved questions.<br />
*Robert Allen, Outer magnetospheric EMIC wave source regions characterized by Cluster<br />
*Sarah Vines, EMIC waves in the outer magnetosphere: Observations of an off-equator source region<br />
*Justin Lee, [https://drive.google.com/open?id=1xlJfppvWgOC_JHy6QgPpptcI3GjkYuLC EMIC wave observations by MMS] <br />
*Chao Yue, The relationship between EMIC wave properties and proton distributions based on Van Allen Probes observations<br />
*Kristine Sigsbee, Simultaneous EMIC Wave Observations During a Van Allen Probes Conjunction<br />
*Hyomin Kim, [https://drive.google.com/open?id=1UmmYHxyIcH2FfQmRnffGNnCUNjH8S5qQ Observations of Particle Loss due to Injection-Associated EMIC Waves]<br />
*Yuri Shprits, Dips in PSD and how they are related to EMIC wave scattering<br />
*Richard Denton, Electromagnetic ion cyclotron waves in the dipole magnetosphere and pitch angle scattering of sub-MeV relativistic electrons by those waves<br />
*Qianli Ma, Pitch angle scattering of radiation belt electrons due to statistical EMIC wave spectra <br />
<br />
'''Recent advances in ULF wave research: Observations and HGSO coordination for ULF wave studies''': 1:30-3:00, Thursday, June 27 New Mexico room. <br />
Discussion of recent advances in ULF wave research, with focus on observations and a general discussion of Heliophysics/Geospace System Observatory coordination for ULF wave studies. We particularly encourage presentations describing (1) past or upcoming satellite conjunctions, (2) new data analysis tools, and/or (3) instrumentation/operation modes of interest to the ULF wave research community.<br />
*Seth Claudepierre/Matina Gkioulidou (invited), [https://drive.google.com/open?id=1bjENFjvkWSjLYA_EfFuTxhCyKtVlk7c1 Van Allen Probes: End of Mission and ULF wave studies]<br />
*Tetsuo Motoba, SuperMAG ULF wave tools<br />
*Sarah Vines, Determining EMIC wave vector properties through multi-point measurements: The wave curl analysis<br />
*Aaron Breneman, [https://drive.google.com/open?id=1NHlf9I_VV6vkx9id_NL4gE6YhEsSRxkG BARREL precipitation during solar wind driven ULF wave events] <br />
*Anatoly Streltsov, Effect of the Hall conductivity on generation of ULF waves<br />
*Mohammad Barani, [https://drive.google.com/open?id=1sCMVi0pbWsggpUUnotdl-4LO_hfGGFEc Estimating the Azimuthal Mode Structure of ULF Waves Based on Multiple GOES Satellite Observations]<br />
*Kazue Takahashi, L versus time structures of ground magnetic pulsations<br />
*Chih-Ping Wang, Earthward propagation of Pi2 waves<br />
<br />
'''ULF waves driven by wave-particle interactions and instabilities''': 3:30-5:00, Thursday, June 27 Lumpkins Ballroon South, discussion leaders: Xueling Shi and Hyomin Kim. <br />
Many ULF wave modes are closely related to instabilities and wave-particle interactions inside the magnetosphere: poloidal mode waves associated with particle injections, mirror/drift-mirror modes, buoyancy waves… These waves are often discussed in different contexts and in different GEM sessions. In addition, there have been relatively few studies of modeling internally generated ULF waves. The purpose of this session is to bring together modelers and observers to discuss the underlying processes that drive/damp these waves, their impact(s) on the M-I system (ring current, radiation belt, ionosphere,…), and the models/observations needed to better understand wave dynamics.<br />
*Xuzhi Zhou (invited), Acceleration of relativistic electrons by global-scale ULF waves<br />
*Tomotsugu Yamakawa (invited), [https://drive.google.com/open?id=1PEsq7oWVeXwwXn3JvE5ZvWQIIjfXwKRB Simulation of the excitation of storm-time Pc5 ULF waves by ring current ions based on the drift-kinetic model]<br />
*Frank Toffoletto, Normal Mode Analysis of Buoyancy Waves <br />
*Peter Chi, Observations of High-m Poloidal Waves along Magnetospheric Field Lines<br />
*Mike Hartinger, [https://drive.google.com/open?id=17do2Jxy01SJPmOloBxzTPID9ZzqaPGZI Observations of wave-particle interactions using MagEIS ultra-high resolution energy channels]<br />
*Jiang Liu, Ultralow Frequency Waves Deep Inside the Inner Magnetosphere Driven by Dipolarizing Flux Bundles, and their interaction with electrons<br />
*Kyle Murphy, TBD<br />
<br />
== 2019 Mini-GEM schedule ==<br />
UMEA will hold one session at the [https://gemworkshop.org/ 2019 mini-GEM] workshop<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 8, 2019, Nevada Room<br />
<br />
'''ULF wave modeling challenge event, HGSO coordination, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge and potential 2020 GEM sessions. The next part of the session is open for ULF wave research presentations discussing the ULF wave modeling challenge event or current/upcoming observation campaigns that are particularly useful for ULF wave studies. The last part of the session will be open for 1 slide ULF wave research highlights.<br />
<br />
*Mike Hartinger, [https://drive.google.com/open?id=1eQQc07g7nCTEGNwaTGesQx4ymIU6m815 UMEA updates and proposed sessions for 2020 GEM workshop]<br />
*Dong Lin, [https://drive.google.com/open?id=1SqiD1u69eyKNzLyrtvTWbMK05L5OrkrO LFM Simulations of ULF wave modeling challenge event]<br />
*Mohammad Barani, [https://drive.google.com/open?id=1fQAossqjQ-aBuGIBhDIW6I0_WEtHdQsF High-fidelity ULF wave azimuthal mode number structure estimation using MMS magnetometer observations], [https://www.youtube.com/watch?reload=9&v=W5Vya8pCjNE&t=1s link to related presentation on YouTube]<br />
*Chih-Ping Wang, [https://drive.google.com/open?id=19ugyLwyIp4YRuLpDuzT330IdbbFppQcr Inward propagation of Pi2 wave from plasma sheet to inner magnetosphere: THEMIS-GOES conjunctions]<br />
*Walk-ins<br />
<br />
== 2020 VGEM schedule ==<br />
UMEA will hold two sessions at the [https://gemworkshop.org/ 2020 Virtual GEM] workshop<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave modeling challenge event'''<br />
(Hosted by Xueling Shi)<br />
The first part of the session is for updates on research related to the challenge event (27-29 May 2017 storm): All modeling and observation talks welcome as long as they're related to this event. The last part of the session will be for short research highlights and oral summaries of posters.<br />
<br />
*Mike Hartinger (10 minutes), [https://drive.google.com/file/d/1Z5-g7-f-iKfpuWD03WVkA3Q2Rb9mbQfe/view?usp=sharing 2020 UMEA updates and overview of challenge event] <br />
*Simone Di Matteo (15 minutes), [https://drive.google.com/file/d/1acsSyIszg95muYurOkn0RmW0btblS3Ja/view?usp=sharing On some features characterizing the plasmasphere–magnetosphere–ionosphere system during the geomagnetic storm of 27 May 2017] <br />
*Bob McPherron (15 minutes), [https://drive.google.com/file/d/1pnqs49KamZF2BLgMdaoOroktmkBNnj1c/view?usp=sharing ULF wave activity at synchronous orbit during the May 27-29, 2017 Magnetic storm]<br />
*Boyi Wang (15 minutes), Ionospheric modulation by storm-time Pc5 ULF waves and wave structure detected by PFISR-THEMIS conjunctions<br />
*Lutz Rastaetter (15 minutes), [https://drive.google.com/file/d/1H9nTOrpQHX0NEau1eSktWjWM0KYbyfnM/view?usp=sharing Idealized ULF wave modeling challenge: high-resolution runs] <br />
*Mark Engebretson (5 minutes), [https://drive.google.com/file/d/1kvWyYe52OkTB7uUmKWRDSO305Jina-Yy/view?usp=sharing Nighttime magnetic perturbation events observed in Arctic Canada: Superposed epoch analysis]<br />
*Jinxing Li (5 minutes), Electron microinjections in association with compressional ULF waves: MMS observations<br />
*Xiaojia Zhang (5 minutes), [https://drive.google.com/file/d/1fKwf0t1ohDZIxF5NPtsgGKNP0cBEqECn/view?usp=sharing Spreading of Magnetopause-Generated Ultra-Low-Frequency Perturbations and the Associated Whistler Modulation] <br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave research highlights'''<br />
These will be contributed talks with priority given to graduate students and postdocs. The rationale is that virtual GEM will not provide the same type of networking opportunities as in-person GEM, and we'd like to balance this somewhat by giving more opportunities to students/postdocs to present their work on ULF waves.<br />
<br />
All presentations are 10 minutes including discussion:<br />
*Rachel Rice, Characteristics of Kelvin-Helmholtz Waves as Observed by MMS<br />
*Dong Lin, Idealized ULF wave simulations with GAMERA-RCM model<br />
*Boyi Wang, The interaction between ions and the ULF waves driven by a foreshock transient<br />
*Jayashree Bulusu, [https://drive.google.com/file/d/1YyRAo0I7Cf4-buxhTBXLxYaTWw7GX6SZ/view?usp=sharing Investigation of Pi2s during super quiet conditions from low and mid-latitudes]<br />
*Changzhi Zhai, High-m Poloidal ULF Wave Signatures in GPS TEC Data<br />
*Simone Di Matteo, [https://drive.google.com/file/d/1yYaidiu7O4a0Z8PeQXELiyatB03hJQyX/view?usp=sharing Power Spectral Density Background Estimate and Signal Detection via the Multitaper Method] <br />
*Yixin Hao, [https://drive.google.com/file/d/1iIf5QpLE9t7IThiIPNwhCoRHrbFDoR8R/view?usp=sharing Simultaneous observations of localized and global drift resonance]<br />
*Mohammad Barani, [https://drive.google.com/file/d/1it2y8JXJzrbjmt56MWia7ffbei63gIwC/view?usp=sharing Effects of realistic mode number structure on radial diffusion estimation]<br />
<br />
== 2021 Virtual Mini-GEM schedule ==<br />
UMEA will hold one session at the Virtual Mini-GEM Worskhop.<br />
<br />
'''Time''': 12:00-14:00 US Eastern Time, Friday, January 22, 2021<br />
<br />
'''ULF wave modeling challenge event, planning for 2021 GEM meeting, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge event, including an invited talk by Naoko Takahashi. The next part of the session will be for open discussion on potential 2021 GEM sessions. The final part of the session will be open for ULF wave research highlights. <br />
*Mike Hartinger, Brief Introduction to Challenge event<br />
*Naoko Takahashi, Relative contribution of ULF waves and whistler-mode chorus to the radiation belt variation during May 2017 storm<br />
*Ian Kelley, GPS TEC response during the ULF wave challenge event<br />
*Mike Hartinger, ULF wave geoelectric fields during the challenge event<br />
*All, Planning for 2021 GEM sessions<br />
*Bob Lysak, FLRs in Jupiter's magnetosphere<br />
*Toshi Nishimura, Upcoming conjunctions for ULF wave studies<br />
*Toshi Nishimura, PFISR and all-sky imager observations of Pc5 ULF waves during substorms<br />
*Francesco Lena, Detection of Hertz Frequency Multiharmonic Field Line Resonances at Low-L (L=1.1–1.5) During Van Allen Probe Perigee Passes<br />
<br />
== 2021 VGEM schedule ==<br />
UMEA will lead four sessions at the [https://gemworkshop.org/ 2021 Virtual GEM] workshop.<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''Recent Advances in ULF Wave Research'''<br />
This session will start with a short update on the ULF wave modeling challenge. The rest of the session will be for recent advances in ULF wave research, with priority given to presentations (1) with data or modeling results related to the challenge event (27-28 May 2017) or (2) discussions of ULF wave data-model comparisons.<br />
<br />
*Mark Engebretson, Pc1 waves / MMS k-vector technique<br />
*Michelle Salzano, IPDP-Pi1B - modeling drift shell splitting<br />
*Yangyang Shen, Tens to hundreds of keV electron precipitation driven by kinetic Alfven waves during an electron injection<br />
*Chih-Ping Wang, Statistical results for Pi2 waves associated with the plasma sheet BBFs observed by THEMIS-RBSP pair with RBSP inside or outside the plasmasphere<br />
*Tom Elsden, Modelling the Varying Location of Field Line Resonances During Geomagnetic Storms<br />
*Denny Oliveira, Factors controlling shock-induced magnetospheric ULF waves<br />
*Short Oral Summaries of Posters<br />
*Open Discussion<br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''The Future of ULF Wave Research'''<br />
This session will begin with a review of the ULF wave FG’s original goals, research topics covered in the last 5 years and related activities, and unresolved questions and research objectives. The remainder of the session is open for 1-2 slide presentations on major unresolved questions in ULF wave research. We particularly encourage presentations (1) exploring topics that could be addressed by current/future GEM FG or decadal survey white paper, (2) highlighting major questions or obstacles preventing progress in ULF wave research (e.g., missing data in a critical region, missing theory/modeling component), (3) discuss how ULF wave researchers can best take advantage of future satellite missions, ground-based infrastructure, computing advances/big data/AI, and modeling/theory advances. <br />
<br />
*Mike Hartinger, Retrospective on the ULF wave focus group<br />
*Martin Archer, Surface Waves<br />
*Tom Elsden, 3D FLRs<br />
*Solene Lejosne, Wave-Particle Interactions<br />
*Ayomide Olabode and Michelle Salzano, Ground Magnetic Perturbations<br />
*Xueling Shi, Applications of TEC observations<br />
*Open discussion, walk-in presentations welcome<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Tuesday, July 27, 2021<br />
<br />
'''ULF Wave M-I Coupling Processes'''<br />
This session is joint with the IEMIT FG. The session will begin with a review of the role of ULF waves on M-I coupling. The remainder of the session is open for 5-min presentations on ULF wave topics related to M-I coupling, e.g., auroral acceleration, particle precipitation, geomagnetic perturbations, GICs, etc. More questions and discussions will be left to the end.<br />
<br />
*Hui Zhang, Role of ULF waves in M-I coupling<br />
*Chaosong Huang, Global Pc5 pulsations<br />
*Tetsuo Motoba, Daytime Pc5 Diffuse Auroral Pulsations and Their Association With Outer Magnetospheric ULF Waves<br />
*Anton Artemyev, ULF driven precipitations as observed by ELFIN<br />
*Mark Engebretson, Magnetic perturbation events related to GICs<br />
*Denny Oliveira, IP shock impact angle control of local intense dB/dt variations during substorm<br />
*Xueling Shi, Sources of Intense Geoelectric Fields in the United States<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Friday, July 30, 2021<br />
<br />
'''Coupling Between ULF Waves and Cold Plasma'''<br />
This session is joint with the Cold Plasma FG. The session will begin with a review of mechanisms that couple cold plasma populations to ULF waves by Richard Denton. The remainder of the session is for contributed presentations (likely 2-3 slides) describing (1) recent advances in our understanding of cold plasma interactions with ULF waves and (2) outstanding questions that could be discussed in future cold plasma FG sessions.<br />
<br />
*Richard Denton<br />
*Alex Degeling<br />
*Eun Hwa Kim<br />
*Bob Lysak<br />
*Qiugang Zong<br />
*Mike Hartinger</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=FG:_ULF_Wave_Modeling,_Effects,_and_Applications&diff=5346FG: ULF Wave Modeling, Effects, and Applications2021-07-21T23:33:42Z<p>Mdhartin: /* 2021 VGEM schedule */</p>
<hr />
<div>''Focus Group Leaders:''<br />
* Michael Hartinger, Space Science Institute (mhartinger@spacescience.org)<br />
* Kazue Takahashi, Applied Physics Laboratory<br />
* Alexander Drozdov, UCLA<br />
* Maria Usanova, University of Colorado<br />
* Brian Kress, University of Colorado and NOAA-NCEI<br />
* Xueling Shi, Virginia Tech<br />
<br />
Focus Group term: 2016-2021<br />
<br />
Join the discussion on [https://gemworkshop.slack.com/archives/C016U8PA7TJ Slack], including discussion related to the 2020 GEM and 2021 miniGEM meetings.<br />
<br />
== Science Questions ==<br />
Our group aims to address the following broad science questions: What mechanisms excite ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in Magnetosphere-Ionosphere coupling?<br />
<br />
== Focus Group Proposal ==<br />
[http://gem.epss.ucla.edu/mediawiki/FGproposals/Hartinger-UMEA.pdf ULF Wave Modeling, Effects, and Applications (UMEA)] (December 2015)<br />
<br />
== ULF wave modeling challenge ==<br />
<br />
One part of the ULF wave modeling challenge involves running several global MHD simulation codes with identical, idealized solar wind driving conditions (sinusoidal density variation), then comparing the resulting global ULF wave properties and discussing differences in the context of differing boundary conditions, grids, etc. More details can be found here: [http://ccmc.gsfc.nasa.gov/challenges/ULF/ ULF wave modeling challenge at CCMC]<br />
<br />
Another part of the ULF wave modeling challenge involves data-model comparisons during specific events. At the 2017 GEM and mini-GEM meetings several [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing challenge events] were proposed, including two [https://drive.google.com/open?id=1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI 2017 events].<br />
<br />
We have selected the [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing 27-28 May 2017 storm event] for the ULF wave modeling challenge due to favorable solar wind coverage and availability of numerous satellites (MMS, ARASE, THEMIS, RBSP, Cluster, GOES, ...) and ground-based observations for global context and multi-point wave observations. We will be continuously updating this [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing overview presentation] with observation and modeling results. Model output and observations for the challenge event - including global densities from the NURD model - can be obtained [https://drive.google.com/drive/folders/1Bk9vJtbEHd-vSuYqr3UG9NGCqaBn69hw?usp=sharing here]. If you would like to add additional observations/model output to the google drive or overview pdf, please contact the co-chairs.<br />
<br />
CCMC has run several global MHD simulation codes using the driving conditions of the ULF wave challenge event. At the 2019 GEM meeting and future GEM/mini-GEM meetings, we plan data-model comparisons to identify where model/data don't agree and discuss these differences in the context of incorrect boundary conditions (e.g., compare model ionosphere to local PFISR-derived conductivities), missing physics, numerical dissipation, etc. Please contact CCMC/Lutz Rastaetter and model developers before using this simulation output in publications:<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_SWMF_040319_1 Space Weather Modeling Framework simulation], IMF Bx=0 (other parameters as in event). Full 2-day event, 3D output every 15s, virtual ground magnetometer. If you haven't used CCMC visualization tools before, be aware that you shouldn’t submit multiple visualization requests at the same time, as this could crash CCMC server for these large 3D files. Instead, request a batch process or wait for the first visualization request to complete. The easiest/fastest visualization is to follow the link above and scroll down until you see the virtual ground magnetometer and satellites list. Click on the magnetometer/satellite of interest, then select which parameter(s) to display/download. <br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_1 OpenGGCM run 1] – IMF Bx = -7 nT. Smaller time range available on 28 May 0400-1000, only virtual ground magnetometer from POKR/CMO available now. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_1 Full results including virtual satellite.]<br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_2 Open GGCM run 2] – IMF Bx = 0 nT (as in SWMF simulation). Same format as other OpenGGCM simulation. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_2 Full results including virtual satellite.]<br />
<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_LFM_051519_2 LFM simulation]<br />
<br />
== ULF wave HGSO event coordination ==<br />
Our group is helping coordinate analysis of conjunction events for ULF wave studies, including requesting instrument operation modes favorable for ULF wave analysis.<br />
<br />
The [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] 0400-0800 UT conjunction event includes several satellites (THEMIS, Cluster, Van Allen Probes, GOES, Geotail, FIREBIRD, METOP, POES, DMSP) in the pre-midnight sector during a conjunction with the Poker Flat Incoherent Scatter Radar and several SuperDARN radars. PFISR was operating throughout the conjunction, several SuperDARN radars were in high resolution sampling modes, and several satellites were operating in fast survey/burst mode. The conjunction is favorable for modeling and observation studies of magnetosphere-ionosphere coupling via ULF waves, wave-particle interactions, global ULF wave properties, and many other topics. [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing This pdf] summarizes preliminary results<br />
<br />
Several web-based tools are available for identifying future conjunctions, including [https://ergsc.isee.nagoya-u.ac.jp/analysis/index.shtml.en upcoming conjunctions between ARASE and Van Allen Probes/ground] and conjunctions between [https://swarm-aurora.com/conjunctionFinder/ SWARM/all-sky cameras].<br />
<br />
'''There are also many specialized, web-based tools for ULF wave analysis (please contact FG co-chairs to add to this list):'''<br />
<br />
*SuperMAG ground-based magnetometer [http://supermag.jhuapl.edu/rBrowse/?start=2001-01-30T05%3A00%3A00.000Z&step=14400 global ULF wave plots]<br />
<br />
*CARISMA ground-based magnetometer [http://www.carisma.ca/carisma-data/fgm-pc1-power-spectra Pc1 power spectra] and [http://www.carisma.ca/carisma-data/fgm-pc5-power-spectra Pc5 power spectra]<br />
<br />
*Augsburg College/UNH Arctic and Antarctic [http://space.augsburg.edu/searchcoil/index.html search coil magnetometer survey plots] <br />
<br />
*Augsburg College (hosted by ViRBO) [http://virbo.org/Augsburg/ULF ULF wave index]<br />
<br />
*[http://vt.superdarn.org/tiki-index.php?page=DaViT+DynFFT SuperDARN wave analysis] and [http://vt.superdarn.org/tiki-index.php?page=Data+Inventory identification of high time-resolution SuperDARN beams]<br />
<br />
*THEMIS satellite fluxgate magnetometer [http://themis.ssl.berkeley.edu/summary.php?year=2014&month=05&day=11&hour=0024&sumType=thmfgmdyn&type=themislinfgl wave survey plots]<br />
<br />
*National Institute of Polar Research inter-hemispheric comparisons of Syowa/Iceland [http://iugonet0.nipr.ac.jp/web/induction/ induction magnetometer spectra]<br />
<br />
*[http://mist.nianet.org/Satellite_Conjunctions/ Inter-hemispheric comparisons] during satellite conjunctions with Arctic(DTU Space)/Antarctic(Virginia Tech) magnetometers<br />
<br />
*[http://kho.unis.no/uaf_msp.htm Meridian Scanning Photometer plots] from [http://kho.unis.no/ UNIS/Kjell Henriksen Observatory], for context on open-closed boundary and ULF modulation of the aurora<br />
<br />
== Summary Reports for GEM workshops ==<br />
[https://drive.google.com/file/d/1QLH8FcKm3-f25aLwoetOuYJGZu5sPgN3/view?usp=sharing 2016 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1SRIv6Gn-NNnqGPHGvjvZQcdDml2GQpv_/view?usp=sharing 2017 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1clzFHWrxC9hvYf9kECJx4bPn9xn8WwsG/view?usp=sharing 2018 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1_fLwZFCLBTBHnq8HkaFPWUvaIY81E-t0/view?usp=sharing 2019 UMEA FG report]<br />
<br />
== 2016 Mini-GEM schedule ==<br />
UMEA will hold one session at the [http://www.cpe.vt.edu/gem-mini/ mini-GEM workshop]: ULF wave modeling, effects and applications updates<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 11, 2016<br />
<br />
'''Location''': Oregon Room, Holiday Inn Golden Gateway<br />
<br />
'''Schedule:'''<br />
<br />
'''First Half (12:00 – 12:45): 3 talks (~15 min each):'''<br />
<br />
*1. Mike Hartinger -- [http://gem.epss.ucla.edu/mediawikiwiki/images/7/7c/UMEAoverview_miniGEM2016.pdf Overview of UMEA current activities, discussion of future plans]<br />
<br />
*2. Lutz Rastaetter -- ULF wave modeling challenge at CCMC<br />
<br />
*3. Robert Rankin -- Modeling the global properties and ground-based signatures of ULF waves and wave-particle interactions<br />
<br />
'''Second Half (12:45 – 13:30): (5 minutes each, 1-2 slides, order of talks may change):'''<br />
<br />
*1. Xueling Shi -- SuperDARN THEMIS Mode Data Tracker & ULF Wave Detection<br />
<br />
*2. Richard Denton -- Mass density inferred from Alfven wave frequencies measured by RBSP<br />
<br />
*3. Lars Daldorff -- ULF waves, particle transport and energization in global MHD simulations with plasmasphere<br />
<br />
*4. Alexander Drozdov -- Dependence of radiation belt simulations to assumed radial diffusion rates tested for two empirical models of radial transport<br />
<br />
*5. Bob Lysak -- Quarter Wavelength Modes<br />
<br />
*6. Walk-ins<br />
<br />
== 2017 GEM meeting schedule ==<br />
UMEA will hold four sessions session at the 2017 GEM meeting<br />
<br />
'''UMEA Update and plans, general discussion of ULF wave modeling and observations''': 10:30-12:15, Monday, June 19, Port VI-VIII<br />
<br />
*1. Michael Hartinger -- [https://drive.google.com/file/d/0B57bC_V89WW6dnBCbmFFSkFURUk/view?usp=sharing UMEA update]<br />
<br />
*2. Toshi Nishimura -- PFISR measurements during the 2 May 2017 HGSO event<br />
<br />
*3. Xueling Shi -- [https://drive.google.com/file/d/0B57bC_V89WW6OUcyNGNWM0piWnc/view?usp=sharing A Survey of Ionospheric ULF Wave Signatures in SuperDARN Data: Occurrence Statistics and Driving Mechanisms]<br />
<br />
*4. Tetsuo Motoba -- Dayside Auroral Pulsations<br />
<br />
*5. Brian Kress and Rob Redmon -- Newly Available GOES 8-16 Particle and Magnetic Field Measurements<br />
<br />
*6. Dick Wolf -- Theory of magnetospheric buoyancy waves<br />
<br />
<br />
'''ULF wave interactions with the radiation belt and ring current populations''': 1:30-3:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Rualdo Soto-Chavez -- Generation of Pc5-ULF wave by the drift-mirror instability<br />
<br />
*2. Zhiyang Xia -- [https://drive.google.com/file/d/0B57bC_V89WW6Y1VQRXJKd3Qya3c/view?usp=sharing Eigenmode analysis of compressional poloidal modes in a self-consistent magnetic field]<br />
<br />
*3. Mark Engebretson -- [https://drive.google.com/file/d/0B57bC_V89WW6QlM3LU9lTVVwZ1E/view?usp=sharing Statistical study of the upper frequency cutoff of helium band EMIC waves observed by the Van Allen Probes]<br />
<br />
*4. Alexander Drozdov -- Radial diffusion and EMIC waves in the long-term simulation and in the case study<br />
<br />
*5. Seth Claudepierre -- Global MHD simulations driven by idealized Alfvenic fluctuations in the solar wind<br />
<br />
*6. Michael Hartinger -- Radiation belt response to large scale, monochromatic ULF waves: LANL-GEO observations<br />
<br />
<br />
'''ULF wave modeling, including CCMC modeling challenge, Joint with MMV''': 3:30-5:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Lutz Rastaetter -- CCMC ULF wave modeling challenge update and challenge events<br />
<br />
*2. Scot Elkington -- [https://drive.google.com/file/d/0B57bC_V89WW6WUxJcGNqbUU2bzA/view?usp=sharing ULF wave activity and diffusion coefficients during QARBM challenge events], [https://drive.google.com/file/d/0B3MAHZknMumcem40dTVyNVRFbE0/view?usp=sharing Ashar F. Ali’s write-up on Event-Specific Radial Diffusion Coefficients Derived Using RBSP EMFISIS and EFW Data]<br />
<br />
*3. Katariina Nykyri -- KHI challenge events<br />
<br />
*4. All -- Open Discussion of Challenge Events<br />
<br />
*5. Doga Ozturk -- Effects of Increased Solar Wind Dynamic Pressure on the Coupled M-I system under different IMF By<br />
<br />
*6. Kazue Takahashi -- Cavity mode Van Allen Probe observations<br />
<br />
*7. Bob Lysak -- Cavity mode models<br />
<br />
*8. Tom Elsden -- [https://drive.google.com/file/d/0B57bC_V89WW6SDNnYjdwSVM3Y3c/view?usp=sharing The Theoretical Foundation of 3D Alfven Resonances: Time Dependent Solutions]<br />
<br />
<br />
'''Magnetosphere-Ionosphere coupling processes associated with localized disturbances caused by dayside kinetic phenomena: Joint with “Dayside Kinetic Processes…” and “Testing proposed links…”''': 3:30-5:00, Tuesday, June 20, Port VI-VIII<br />
<br />
*1. Peter Chi -- Magnetospheric and ionospheric responses to a localized disturbance: The macroscopic view<br />
<br />
*2. Hui Zhang -- Magnetospheric ULF waves generated by foreshock transients<br />
<br />
*3. Hui Zhang -- Modeling challenges in simulating HFA geoeffects<br />
<br />
*4. Boyi Wang -- Optical signatures of dayside ULF waves during magnetosheath high-speed jets<br />
<br />
*5. Katariina Nykyri -- The effect of magnetosheath seed spectrum on KH evolution and associated mass transport<br />
<br />
*6. Kyle Murphy -- A statistical study of discrete ULF wave power observed by GOES<br />
<br />
== 2017 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2017 mini-GEM] workshop<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 10, 2017, Canal/50<br />
<br />
'''ULF wave modeling challenges'''<br />
Discussion of final plans for the CCMC ULF wave modeling challenge with idealized drivers, as well as open discussion of new challenges involving data-model and model-model comparisons during [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing specific events]. Please come with 1-2 slides showing examples of such comparisons, ideas for improving ULF wave models, and/or ideas for specific modeling challenges/sessions relevant to the FG science questions.<br />
<br />
*1. 12:00-12:30 Overview of CCMC ULF wave modeling challenge with idealized driving conditions, description of challenge events and targets proposed during 2017 GEM meeting and November modeling telecon (Michael Hartinger, Lutz Rastaetter)<br />
*2. 12:30-13:30 [https://drive.google.com/file/d/1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI/view?usp=sharing Open discussion of challenge events and targets (Allison Jaynes,] Robert Rankin), select challenge event to be analyzed at 2018 GEM<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 10, 2017, Canal/50<br />
<br />
'''Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
Discussion of HGSO coordination for ULF wave studies. This includes updates on the [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] conjunction event followed by an open discussion of conjunctions and datasets that are particularly useful for ULF wave studies, including upcoming RBSP-ERG-ground conjunctions. Please come with 1-2 slides showing examples of datasets and past/upcoming conjunctions ideal for addressing the FG science questions: What excites ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in MI coupling? We welcome discussion from both modelers and observers of the types of conjunctions and observations that are most needed to address these questions.<br />
<br />
*1. 13:50-14:20 Recently available datasets and conjunctions for ULF wave studies (Chih-Ping Wang, Xueling Shi, Sana Qamar, Rob Redmon)<br />
*2. 14:20-14:35 Updates on 2 May 2017 conjunction event (Toshi Nishimura, Michael Hartinger)<br />
*3. 14:35-15:20 Upcoming ARASE-RBSP conjunctions (Yoshi Miyoshi), Open Discussion of HGSO coordination for ULF wave studies (Toshi Nishimura, Kazue Takahashi)<br />
<br />
== 2018 GEM meeting schedule ==<br />
UMEA will hold [https://drive.google.com/file/d/1uh-ZOICfOBzNs9KLe3saFMnY9P-oqV9R/view?usp=sharing four sessions] at the 2018 GEM meeting. <br />
<br />
'''ULF waves during particle injections and dipolarizations, joint with Dipolarization and Substorm FG''': 10:30-12:00, Monday, June 18<br />
<br />
*1. Discussion of Session Topic<br />
<br />
*2. Bob Lysak -- [https://drive.google.com/file/d/1w8o5aGYbLsIEy2YmaoosF3WNeWTuLE59/view?usp=sharing Ionospheric Conductivity Effects on Pi2 Pulsations]<br />
<br />
*3. Mike Hartinger -- [https://drive.google.com/file/d/1tcJgspMQDkhPPvSTng4eZP7h-j7jvVR7/view?usp=sharing Pi2 waves during an extended period with stable plasmapause location and variable geomagnetic activity]<br />
<br />
*4. Toshi Nishimura -- Ionosphere observations of Pc5 ULF waves during 2018 HGSO conjunctions<br />
<br />
*5. Xueling Shi -- Long-lasting poloidal ULF waves observed by multiple satellite and SuperDARN HF radars<br />
<br />
*6. Jian Yang -- New RCM-I simulation results for buoyancy waves<br />
<br />
*7. Dick Wolf -- [https://drive.google.com/file/d/1vTkH_lmgXCcvkAYU6HgO_R5ZgIdGji3O/view?usp=sharing Theory of Buoyancy Waves] <br />
<br />
*8. Yan Song -- What Causes the Substorm Expansion Phase and Associated ULF Waves?<br />
<br />
<br />
'''Recent advances in ULF wave research''': 1:30-3:00, Monday, June 18 <br />
<br />
*1. [https://drive.google.com/file/d/1ms9kDYlBhCnxti8z9o9Lx8y0PPmkWu_-/view?usp=sharing Overview of focus group goals and recent progress]<br />
<br />
*2. Brief ULF wave poster overviews (Tuesday posters)<br />
<br />
*3. Kazue Takahashi -- Observation of nightside ULF waves by RBSP and Arase<br />
<br />
*4. Tom Elsden -- Broadband Excitation of 3D Alfven Resonances (FLRs) in an MHD Waveguide<br />
<br />
*5. Boyi Wang -- 2-D structure of foreshock driven Pc5 ULF waves observed by the THEMIS satellites and South Pole imager<br />
<br />
*6. Xiaochen Shen -- Foreshock transient-driven ultra-low frequency (ULF) waves with dawn-dusk asymmetry of wave power<br />
<br />
*7. Chih-Ping Wang -- ULF waves possibly driven by tailward propagation of foreshock perturbations<br />
<br />
*8. Allison Jaynes -- [https://drive.google.com/file/d/1EC3yPvda8fA0LUr9qTfszluNDLs6LdHT/view?usp=sharing Fast diffusion of ultra-relativistic electrons in the outer radiation belt: 17 March 2015 storm event]<br />
<br />
*9. Rualdo Soto -- The Drift-Mirror instability in Earth's inner magnetosphere<br />
<br />
*10. Martin Archer/Mike Hartinger -- [https://drive.google.com/file/d/1t4fmiiZP9wdJ-40TISEC7BuicEd64m7W/view?usp=sharing Results from Sonification and Citizen Science of Magnetospheric ULF waves]<br />
<br />
<br />
'''EMIC wave generation, propagation, and interactions''': 3:30-5:00, Monday, June 18 (discussion leaders: Alexander Drozdov and Maria Usanova)<br />
[https://drive.google.com/open?id=15rjO2UxK8sqdOfHXunDSLv5q-z51vwuD Session Summary]<br />
<br />
*1. Dedong Wang -- EMIC wave observations from Van Allen Probes and MMS<br />
<br />
*2. Mark Engebretson -- [https://drive.google.com/file/d/1jkhN45ezaeQyeAA7HmVuYOF_izjAMYra/view?usp=sharing Van Allen Probes, and ground based magnetometer observations of EMIC waves associated with a modest interplanetary shock]<br />
<br />
*3. Maria Usanova -- MMS Observations of Harmonic Electromagnetic Cyclotron Waves<br />
<br />
*4. Naritoshi Kitamura -- Direct measurements of energy transfer from hot H+ to EMIC waves by MMS<br />
<br />
*5. Bruce Fritz -- ELF Whistler Dependence on a Sunlit Ionosphere<br />
<br />
*6. Chae-Woo Jun -- EMIC waves associated with/without the injection inside/outside the plasmapause<br />
<br />
*7. Hyomin Kim -- Injection-associated EMIC waves<br />
<br />
*8. Sebastian Cervantes -- EMIC wave parameterization in radiation belt reanalysis<br />
<br />
*9. Maria Usanova -- Long-term correlation of EMIC wave activity and radiation belt flux variations<br />
<br />
*10. Alexander Drozdov -- The effects due to the EMIC waves in the VERB code modeling<br />
<br />
<br />
'''ULF wave modeling challenge, joint with MMV FG''': 3:30-5:00, Wednesday, June 20<br />
<br />
*1. Brief ULF wave poster overviews (Thursday posters)<br />
<br />
*2. Mike Hartinger: [https://drive.google.com/file/d/1g2cL_qaDbASLH5DoJ_auJKQCbG96sdQn/view?usp=sharing ULF wave modeling challenge event overview, discussion of challenge targets (continuing during session)]<br />
<br />
*3. Mariko Teramoto: ARASE ULF wave observations during challenge event<br />
<br />
*4. Sam Califf: [https://drive.google.com/file/d/1CvbVG2Dp8e6RokJE0501L8-LU9ipdUFT/view?usp=sharing GOES-14 and 16 observations during the ULF wave challenge event, Data Discussion]<br />
<br />
*5. Toshi Nishimura: [https://drive.google.com/file/d/1cavbwNU4LoAigIsGvGF_UtiTaM97dFtP/view?usp=sharing PFISR measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*6. Dogacan Su Ozturk: [https://drive.google.com/file/d/1MmP3D_4eeJbEVJzUyx8fAtFsG3b0grzy/view?usp=sharing The modeling study of the 27 March 2017 Event] <br />
<br />
*7. Xiaochen Shen: GEM Challenge Event: ULF wave-related electron and proton precipitation/negative dynamic pressure pulse driven EMIC wave<br />
<br />
*8. Tetsuo Motoba: [https://drive.google.com/file/d/1544ngYBXat-zUC1gZqo0lMVUZtYqxUqH/view?usp=sharing Auroral measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*9. Others discuss when their figures/summary plots in event overview pdf are presented…<br />
<br />
== 2018 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2018 mini-GEM] workshop<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF modulation of the aurora, Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
This session focuses on understanding a variety of mechanisms responsible for ULF modulations of the aurora. Eric Donovan will give a 30 minute invited presentation, with the rest of the session open for presentations and discussion on this topic. We welcome discussion of ULF aurora generation mechanisms and the types of conjunctions, observations, and models needed to understand the zoo of ULF auroral modulations. We also welcome discussion of upcoming observation campaigns/satellite conjunctions that would be particularly useful for ULF wave studies.<br />
<br />
*1. Eric Donovan<br />
*2. Tetsuo Motoba<br />
*3. Slava Pilipenko<br />
*4. Boyi Wang / Toshi Nishimura<br />
*5. Open discussion<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF wave modeling challenge and research highlights'''<br />
The first part of the session is for updates on the idealized ULF wave modeling challenge and potential 2019 GEM sessions. The next part of the session is for observation/model presentations relevant to the 27-28 May 2017 ULF wave challenge event and final selection of the modeling challenge targets – all types of models and observations welcome. The last part of the session will be open for 1 slide ULF wave modeling and observation research highlights. <br />
<br />
*1. [https://drive.google.com/file/d/1vqxxn3gYXfzDKABe9yRwMgR8vbKRua_j/view?usp=sharing 2019 GEM session ideas] (Mike Hartinger)<br />
*2. Idealized Modeling Challenge (Lutz Rastaetter)<br />
*3. ULF wave modeling challenge event updates: Rob Redmon/Sam Califf/Mike Hartinger (GOES magnetometer observations), Yoshi Miyoshi (Arase magnetic field observations), [https://drive.google.com/file/d/1B6DGHvAzUhBG79eUJWPsUD2BSjGhQrrw/view?usp=sharing Hyomin Kim (wave-particle interaction)], [https://drive.google.com/file/d/180iaBGrbCPf1rYy6uVZn8OsLTOFREqsD/view?usp=sharing Dong Lin (LFM simulations)]<br />
*4. General ULF wave modeling: [https://drive.google.com/file/d/10gUKitjDPnbV_g9r9CAHDFeE365wUQQd/view?usp=sharing Yaireska Collado-Vega (vortex identification/surface waves)], [https://drive.google.com/file/d/1kkGlYKoYHr7XZf5nT3kaXITUD3tpNynJ/view?usp=sharing Alex Degeling (ULF wave radiation belt interactions)] <br />
*5. Research highlights (1-slide): Rualdo Soto (Van Allen Probes and Cluster satellites’ observations of Pc 5 (mHz) magnetic pulsations), [https://drive.google.com/file/d/1V_Joz3psBQbCBoVKRYaOKdKIEoZ72WgQ/view?usp=sharing Xueling Shi (SuperDARN ULF waves)], Martin Archer (magnetopause surface eigenmodes), [https://drive.google.com/file/d/1Mmi3VfERKswG3dpYidVUgOQra2UG-9s2/view?usp=sharing Martin Archer (sonification)]<br />
<br />
== 2019 GEM meeting schedule ==<br />
<br />
UMEA will hold [https://drive.google.com/file/d/1KmH9XqxrisGH_g4s0ny7QDkutmv7tKlr/view?usp=sharing six sessions] at the 2019 GEM meeting, four joint with other focus groups. <br />
<br />
'''Recent advances in ULF wave research: Modeling''': 3:30-5:00, Monday, June 24 New Mexico room, joint with MMV. <br />
Discussion of advances in ULF wave research, with focus on modeling and modeling challenges (e.g., boundary conditions, grid resolution, missing physics). This includes models of the effects of ULF waves on inner magnetosphere dynamics and wave-particle interactions. We particularly encourage presentations focused on the ULF wave modeling challenge, including data-model comparisons for the 27-28 May 2017 challenge event.<br />
*Mike Hartinger, [https://drive.google.com/open?id=1Drkq9epsQWY4AjpV1EF-8Ci_kaKyN2jk FG updates]<br />
*Jesper Gjerloev, SuperMAG ULF updates<br />
*Tetsuo Motoba, High-time resolution SuperMAG ULF data products<br />
*Lutz Rastaetter, ULF wave modeling challenge<br />
*Maulik Patel, MHD test particle simulations of the 16 July 2017 shock compression of the dayside magnetopause <br />
*Bob McPherron, Pi 2 pulsations during the storm of May 27-29 2017, The Statistics of Pi 2 Pulsation Occurrence during a Major Magnetic Storm<br />
*Dong Lin, LFM simulations of surface waves during challenge event<br />
<br />
'''The ULF response to dayside transients with different temporal/spatial scales''': 10:30-12:00, Wednesday, June 26 Santa Fe room, discussion leader: Tom Elsden, joint with Dayside Kinetics and IHMIC. <br />
Dayside transient phenomena associated with kinetic scale processes cause a variety of ULF wave behaviour in the magnetosphere and further, contribute to significant magnetospheric asymmetries. The aim of this session is to bring together the expertise of the three focus groups listed above, to answer outstanding questions at the overlap of these disciplines. It is hoped that such a discussion should prove fruitful enough to generate a JGR commentary paper in this area. With this in mind, speakers in this session are encouraged to give their views as to the current state of the subject area, and how outstanding problems may be addressed in the future.<br />
* Tom Elsden - Session introduction and goals<br />
* Ferdinand Plaschke (invited) - An overview of dayside transients causing ULF waves<br />
* Tom Elsden - 3D ULF wave modeling with MHD<br />
* Boyi Wang - The role of magnetosheath high-speed jets in triggering magnetospheric Pc5 ULF waves<br />
* Bob Lysak - Ionospheric asymmetries and quarter-wave modes<br />
* Xueling Shi - Conjugate Observations of ULF Waves during an Extended Period of Radial IMF<br />
* Michael Hartinger - Localized magnetopause surface wave activity and [https://drive.google.com/open?id=1d8lDB-FPGa6VErL37aZz3xZSgpNvxbk0 modeling challenges]<br />
* Discussion<br />
<br />
'''ULF wave modeling challenges associated with Magnetosphere-Ionosphere-Thermosphere Coupling''': 3:30-5:00, Wednesday, June 26 Lumpkins Ballroon South, joint with IEMIT, discussion leader Doga Ozturk. <br />
ULF waves play important roles in M-I-T coupling, driving current systems that can lead to I-T system heating and geomagnetically induced currents. This session aims to bring together researchers from the ULF wave and M-I-T coupling research communities to discuss challenges associated with realistically modeling M-I-T coupling processes associated with these waves. The session will begin with a discussion of the ULF wave challenge event; comparisons between modeled / observed (PFISR) conductivities and modeled/observed ULF wave properties will be presented, and the community will be invited to discuss explanations for model/observation differences. The rest of the session is open for short presentations on ULF wave modeling challenges related to M-I-T coupling, including topics such as specifying conductivity and effect of conductivity on wave properties, effect of ionospheric boundary conditions in global simulations, boundary conditions and feedback between magnetosphere and ionosphere, capturing role of waves in ionospheric-thermospheric heating.<br />
# (Invited) Boyi Wang: Ionospheric modulation by Pc5 ULF waves and wave structure detected by PFISR<br />
# (Invited) Xiaojia Zhang / Anton Artemyev: ULF modulation of VLF waves and precipitation<br />
# Doga Ozturk: Update from GEM/CEDAR joint session, [https://drive.google.com/open?id=1WsSf4PFHiBo_iZ3za-bhUWKHFJd4MNQX ULF Wave activity and Meso-Scale electric field variability at high-latitude I-T system]<br />
# Anatoly Streltsov: ULF waves generated by the MI interactions near the plasmapause<br />
# Mergen Alimaganbetov: ULF waves observed in space and on the ground at high and low latitudes<br />
# Mark Engebretson: [https://drive.google.com/open?id=16WbDl3rnuehoifUqFj4oMw_Tn5WhEFlU Multi-Instrument Observations of Nighttime Impulsive Magnetic Events]<br />
# Bob Lysak: Modeling ionospheric conductance and ground magnetic fields<br />
# Yan Song: ULF wave, M-I coupling and Auroral formation.<br />
<br />
[https://drive.google.com/open?id=1wGpZPk086Zs54uWGtYiRjByPmVCFnsSv '''EMIC waves''']: 10:30-12:00, Thursday, June 27 New Mexico room, joint with Radiation Belt. <br />
The generation mechanisms of Electromagnetic Ion Cyclotron (EMIC) waves, their effects on energetic electrons and ions, and their propagation through the magnetosphere-ionosphere system are challenging topics that involve multiple GEM research areas. Despite several years of observations and improved global wave statistics, there are many unresolved questions that limit further investigation, modeling and prediction of dynamical processes in the inner magnetosphere involving EMIC waves. Hence, we invite short presentations that discuss recent findings in different areas of EMIC wave research and identify observations/models most needed to address unresolved questions.<br />
*Robert Allen, Outer magnetospheric EMIC wave source regions characterized by Cluster<br />
*Sarah Vines, EMIC waves in the outer magnetosphere: Observations of an off-equator source region<br />
*Justin Lee, [https://drive.google.com/open?id=1xlJfppvWgOC_JHy6QgPpptcI3GjkYuLC EMIC wave observations by MMS] <br />
*Chao Yue, The relationship between EMIC wave properties and proton distributions based on Van Allen Probes observations<br />
*Kristine Sigsbee, Simultaneous EMIC Wave Observations During a Van Allen Probes Conjunction<br />
*Hyomin Kim, [https://drive.google.com/open?id=1UmmYHxyIcH2FfQmRnffGNnCUNjH8S5qQ Observations of Particle Loss due to Injection-Associated EMIC Waves]<br />
*Yuri Shprits, Dips in PSD and how they are related to EMIC wave scattering<br />
*Richard Denton, Electromagnetic ion cyclotron waves in the dipole magnetosphere and pitch angle scattering of sub-MeV relativistic electrons by those waves<br />
*Qianli Ma, Pitch angle scattering of radiation belt electrons due to statistical EMIC wave spectra <br />
<br />
'''Recent advances in ULF wave research: Observations and HGSO coordination for ULF wave studies''': 1:30-3:00, Thursday, June 27 New Mexico room. <br />
Discussion of recent advances in ULF wave research, with focus on observations and a general discussion of Heliophysics/Geospace System Observatory coordination for ULF wave studies. We particularly encourage presentations describing (1) past or upcoming satellite conjunctions, (2) new data analysis tools, and/or (3) instrumentation/operation modes of interest to the ULF wave research community.<br />
*Seth Claudepierre/Matina Gkioulidou (invited), [https://drive.google.com/open?id=1bjENFjvkWSjLYA_EfFuTxhCyKtVlk7c1 Van Allen Probes: End of Mission and ULF wave studies]<br />
*Tetsuo Motoba, SuperMAG ULF wave tools<br />
*Sarah Vines, Determining EMIC wave vector properties through multi-point measurements: The wave curl analysis<br />
*Aaron Breneman, [https://drive.google.com/open?id=1NHlf9I_VV6vkx9id_NL4gE6YhEsSRxkG BARREL precipitation during solar wind driven ULF wave events] <br />
*Anatoly Streltsov, Effect of the Hall conductivity on generation of ULF waves<br />
*Mohammad Barani, [https://drive.google.com/open?id=1sCMVi0pbWsggpUUnotdl-4LO_hfGGFEc Estimating the Azimuthal Mode Structure of ULF Waves Based on Multiple GOES Satellite Observations]<br />
*Kazue Takahashi, L versus time structures of ground magnetic pulsations<br />
*Chih-Ping Wang, Earthward propagation of Pi2 waves<br />
<br />
'''ULF waves driven by wave-particle interactions and instabilities''': 3:30-5:00, Thursday, June 27 Lumpkins Ballroon South, discussion leaders: Xueling Shi and Hyomin Kim. <br />
Many ULF wave modes are closely related to instabilities and wave-particle interactions inside the magnetosphere: poloidal mode waves associated with particle injections, mirror/drift-mirror modes, buoyancy waves… These waves are often discussed in different contexts and in different GEM sessions. In addition, there have been relatively few studies of modeling internally generated ULF waves. The purpose of this session is to bring together modelers and observers to discuss the underlying processes that drive/damp these waves, their impact(s) on the M-I system (ring current, radiation belt, ionosphere,…), and the models/observations needed to better understand wave dynamics.<br />
*Xuzhi Zhou (invited), Acceleration of relativistic electrons by global-scale ULF waves<br />
*Tomotsugu Yamakawa (invited), [https://drive.google.com/open?id=1PEsq7oWVeXwwXn3JvE5ZvWQIIjfXwKRB Simulation of the excitation of storm-time Pc5 ULF waves by ring current ions based on the drift-kinetic model]<br />
*Frank Toffoletto, Normal Mode Analysis of Buoyancy Waves <br />
*Peter Chi, Observations of High-m Poloidal Waves along Magnetospheric Field Lines<br />
*Mike Hartinger, [https://drive.google.com/open?id=17do2Jxy01SJPmOloBxzTPID9ZzqaPGZI Observations of wave-particle interactions using MagEIS ultra-high resolution energy channels]<br />
*Jiang Liu, Ultralow Frequency Waves Deep Inside the Inner Magnetosphere Driven by Dipolarizing Flux Bundles, and their interaction with electrons<br />
*Kyle Murphy, TBD<br />
<br />
== 2019 Mini-GEM schedule ==<br />
UMEA will hold one session at the [https://gemworkshop.org/ 2019 mini-GEM] workshop<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 8, 2019, Nevada Room<br />
<br />
'''ULF wave modeling challenge event, HGSO coordination, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge and potential 2020 GEM sessions. The next part of the session is open for ULF wave research presentations discussing the ULF wave modeling challenge event or current/upcoming observation campaigns that are particularly useful for ULF wave studies. The last part of the session will be open for 1 slide ULF wave research highlights.<br />
<br />
*Mike Hartinger, [https://drive.google.com/open?id=1eQQc07g7nCTEGNwaTGesQx4ymIU6m815 UMEA updates and proposed sessions for 2020 GEM workshop]<br />
*Dong Lin, [https://drive.google.com/open?id=1SqiD1u69eyKNzLyrtvTWbMK05L5OrkrO LFM Simulations of ULF wave modeling challenge event]<br />
*Mohammad Barani, [https://drive.google.com/open?id=1fQAossqjQ-aBuGIBhDIW6I0_WEtHdQsF High-fidelity ULF wave azimuthal mode number structure estimation using MMS magnetometer observations], [https://www.youtube.com/watch?reload=9&v=W5Vya8pCjNE&t=1s link to related presentation on YouTube]<br />
*Chih-Ping Wang, [https://drive.google.com/open?id=19ugyLwyIp4YRuLpDuzT330IdbbFppQcr Inward propagation of Pi2 wave from plasma sheet to inner magnetosphere: THEMIS-GOES conjunctions]<br />
*Walk-ins<br />
<br />
== 2020 VGEM schedule ==<br />
UMEA will hold two sessions at the [https://gemworkshop.org/ 2020 Virtual GEM] workshop<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave modeling challenge event'''<br />
(Hosted by Xueling Shi)<br />
The first part of the session is for updates on research related to the challenge event (27-29 May 2017 storm): All modeling and observation talks welcome as long as they're related to this event. The last part of the session will be for short research highlights and oral summaries of posters.<br />
<br />
*Mike Hartinger (10 minutes), [https://drive.google.com/file/d/1Z5-g7-f-iKfpuWD03WVkA3Q2Rb9mbQfe/view?usp=sharing 2020 UMEA updates and overview of challenge event] <br />
*Simone Di Matteo (15 minutes), [https://drive.google.com/file/d/1acsSyIszg95muYurOkn0RmW0btblS3Ja/view?usp=sharing On some features characterizing the plasmasphere–magnetosphere–ionosphere system during the geomagnetic storm of 27 May 2017] <br />
*Bob McPherron (15 minutes), [https://drive.google.com/file/d/1pnqs49KamZF2BLgMdaoOroktmkBNnj1c/view?usp=sharing ULF wave activity at synchronous orbit during the May 27-29, 2017 Magnetic storm]<br />
*Boyi Wang (15 minutes), Ionospheric modulation by storm-time Pc5 ULF waves and wave structure detected by PFISR-THEMIS conjunctions<br />
*Lutz Rastaetter (15 minutes), [https://drive.google.com/file/d/1H9nTOrpQHX0NEau1eSktWjWM0KYbyfnM/view?usp=sharing Idealized ULF wave modeling challenge: high-resolution runs] <br />
*Mark Engebretson (5 minutes), [https://drive.google.com/file/d/1kvWyYe52OkTB7uUmKWRDSO305Jina-Yy/view?usp=sharing Nighttime magnetic perturbation events observed in Arctic Canada: Superposed epoch analysis]<br />
*Jinxing Li (5 minutes), Electron microinjections in association with compressional ULF waves: MMS observations<br />
*Xiaojia Zhang (5 minutes), [https://drive.google.com/file/d/1fKwf0t1ohDZIxF5NPtsgGKNP0cBEqECn/view?usp=sharing Spreading of Magnetopause-Generated Ultra-Low-Frequency Perturbations and the Associated Whistler Modulation] <br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave research highlights'''<br />
These will be contributed talks with priority given to graduate students and postdocs. The rationale is that virtual GEM will not provide the same type of networking opportunities as in-person GEM, and we'd like to balance this somewhat by giving more opportunities to students/postdocs to present their work on ULF waves.<br />
<br />
All presentations are 10 minutes including discussion:<br />
*Rachel Rice, Characteristics of Kelvin-Helmholtz Waves as Observed by MMS<br />
*Dong Lin, Idealized ULF wave simulations with GAMERA-RCM model<br />
*Boyi Wang, The interaction between ions and the ULF waves driven by a foreshock transient<br />
*Jayashree Bulusu, [https://drive.google.com/file/d/1YyRAo0I7Cf4-buxhTBXLxYaTWw7GX6SZ/view?usp=sharing Investigation of Pi2s during super quiet conditions from low and mid-latitudes]<br />
*Changzhi Zhai, High-m Poloidal ULF Wave Signatures in GPS TEC Data<br />
*Simone Di Matteo, [https://drive.google.com/file/d/1yYaidiu7O4a0Z8PeQXELiyatB03hJQyX/view?usp=sharing Power Spectral Density Background Estimate and Signal Detection via the Multitaper Method] <br />
*Yixin Hao, [https://drive.google.com/file/d/1iIf5QpLE9t7IThiIPNwhCoRHrbFDoR8R/view?usp=sharing Simultaneous observations of localized and global drift resonance]<br />
*Mohammad Barani, [https://drive.google.com/file/d/1it2y8JXJzrbjmt56MWia7ffbei63gIwC/view?usp=sharing Effects of realistic mode number structure on radial diffusion estimation]<br />
<br />
== 2021 Virtual Mini-GEM schedule ==<br />
UMEA will hold one session at the Virtual Mini-GEM Worskhop.<br />
<br />
'''Time''': 12:00-14:00 US Eastern Time, Friday, January 22, 2021<br />
<br />
'''ULF wave modeling challenge event, planning for 2021 GEM meeting, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge event, including an invited talk by Naoko Takahashi. The next part of the session will be for open discussion on potential 2021 GEM sessions. The final part of the session will be open for ULF wave research highlights. <br />
*Mike Hartinger, Brief Introduction to Challenge event<br />
*Naoko Takahashi, Relative contribution of ULF waves and whistler-mode chorus to the radiation belt variation during May 2017 storm<br />
*Ian Kelley, GPS TEC response during the ULF wave challenge event<br />
*Mike Hartinger, ULF wave geoelectric fields during the challenge event<br />
*All, Planning for 2021 GEM sessions<br />
*Bob Lysak, FLRs in Jupiter's magnetosphere<br />
*Toshi Nishimura, Upcoming conjunctions for ULF wave studies<br />
*Toshi Nishimura, PFISR and all-sky imager observations of Pc5 ULF waves during substorms<br />
*Francesco Lena, Detection of Hertz Frequency Multiharmonic Field Line Resonances at Low-L (L=1.1–1.5) During Van Allen Probe Perigee Passes<br />
<br />
== 2021 VGEM schedule ==<br />
UMEA will lead four sessions at the [https://gemworkshop.org/ 2021 Virtual GEM] workshop.<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''Recent Advances in ULF Wave Research'''<br />
This session will start with a short update on the ULF wave modeling challenge. The rest of the session will be for recent advances in ULF wave research, with priority given to presentations (1) with data or modeling results related to the challenge event (27-28 May 2017) or (2) discussions of ULF wave data-model comparisons.<br />
<br />
*Mark Engebretson, Pc1 waves / MMS k-vector technique<br />
*Michelle Salzano, IPDP-Pi1B - modeling drift shell splitting<br />
*Yangyang Shen, Tens to hundreds of keV electron precipitation driven by kinetic Alfven waves during an electron injection<br />
*Chih-Ping Wang, Statistical results for Pi2 waves associated with the plasma sheet BBFs observed by THEMIS-RBSP pair with RBSP inside or outside the plasmasphere<br />
*Tom Elsden, Modelling the Varying Location of Field Line Resonances During Geomagnetic Storms<br />
*Denny Oliveira, Factors controlling shock-induced magnetospheric ULF waves<br />
*Short Oral Summaries of Posters<br />
*Open Discussion<br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''The Future of ULF Wave Research'''<br />
This session will begin with a review of the ULF wave FG’s original goals, research topics covered in the last 5 years and related activities, and unresolved questions and research objectives. The remainder of the session is open for 1-2 slide presentations on major unresolved questions in ULF wave research. We particularly encourage presentations (1) exploring topics that could be addressed by current/future GEM FG or decadal survey white paper, (2) highlighting major questions or obstacles preventing progress in ULF wave research (e.g., missing data in a critical region, missing theory/modeling component), (3) discuss how ULF wave researchers can best take advantage of future satellite missions, ground-based infrastructure, computing advances/big data/AI, and modeling/theory advances. <br />
<br />
*Mike Hartinger, Retrospective on the ULF wave focus group<br />
*Martin Archer, Surface Waves<br />
*Tom Elsden, 3D FLRs<br />
*Solene Lejosne, Wave-Particle Interactions<br />
*Ayomide Olabode and Michelle Salzano, Ground Magnetic Perturbations<br />
*Xueling Shi, Applications of TEC observations<br />
*Open discussion, walk-in presentations welcome<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Tuesday, July 27, 2021<br />
<br />
'''ULF Wave M-I Coupling Processes'''<br />
This session is joint with the IEMIT FG. The session will begin with a review of the role of ULF waves on M-I coupling. The remainder of the session is open for 5-min presentations on ULF wave topics related to M-I coupling, e.g., auroral acceleration, particle precipitation, geomagnetic perturbations, GICs, etc. More questions and discussions will be left to the end.<br />
<br />
*Schedule TBD<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Friday, July 30, 2021<br />
<br />
'''Coupling Between ULF Waves and Cold Plasma'''<br />
This session is joint with the Cold Plasma FG. The session will begin with a review of mechanisms that couple cold plasma populations to ULF waves by Richard Denton. The remainder of the session is for contributed presentations (likely 2-3 slides) describing (1) recent advances in our understanding of cold plasma interactions with ULF waves and (2) outstanding questions that could be discussed in future cold plasma FG sessions.<br />
<br />
*Schedule TBD</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=US_Ground-based_magnetometer_arrays&diff=5320US Ground-based magnetometer arrays2021-07-10T00:56:33Z<p>Mdhartin: /* July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey */</p>
<hr />
<div>=== US Ground Magnetometer Board ===<br />
<br />
This wiki page and related ground magnetometer board meetings are part of a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts. For more information about the current state and future of ground magnetometer networks in support of space weather monitoring and research, see this article in [https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017SW001718 Space Weather]. <br />
<br />
''Current Ground Magnetometer Board Members:''<br />
* Peter Chi<br />
* Mark Engebretson, (former chair)<br />
* Jennifer Gannon<br />
* Jesper Gjerloev<br />
* Michael Hartinger, (current chair, mhartinger@spacescience.org)<br />
* Hyomin Kim<br />
* Gang Lu<br />
* Josh Rigler<br />
* Michelle Salzano<br />
* Howard Singer<br />
* Endawoke Yizengaw<br />
<br />
''Former Ground Magnetometer Board Members:''<br />
* Carol Finn<br />
* Efthyia Zesta<br />
<br />
=== US-Sponsored Ground-Based Magnetometer Arrays and Programs* ===<br />
<br />
{| class="wikitable" style="width: 50%; height: 4em;"<br />
|-<br />
| Array || Location || Instruments || Manufacturer || No. of Locations<br />
|-<br />
| AAL-PIP || Antarctica || Fluxgate || Lviv Centre ISR || 6<br />
|-<br />
| AAL-PIP || Antarctica || Induction Coil || UNH || 4<br />
|-<br />
| AMBER || Africa || Fluxgate || UCLA || 7<br />
|-<br />
| AMBER || South America || Fluxgate || UCLA || 2<br />
|-<br />
| AMBER || East Asia || Fluxgate || UCLA || 4<br />
|-<br />
| Falcon || Continental US || Fluxgate || UCLA || 11<br />
|-<br />
| GIMA || Alaska || Fluxgate || Narod || 9<br />
|-<br />
| Jicamarca || South America || Fluxgate || UCLA || 2<br />
|-<br />
| LISN || South America || Fluxgate || Custom/Jicamarca || 6<br />
|-<br />
| MACCS || Arctic Canada || Fluxgate || Narod || 8<br />
|-<br />
| McMAC || Continental US & Mexico || Fluxgate || UCLA || 9<br />
|-<br />
| MEASURE || Continental US || Fluxgate || UCLA || 6<br />
|-<br />
| SAMBA || South America & Antarctica || Fluxgate || UCLA || 12<br />
|-<br />
| THEMIS || Continental US & Canada || Fluxgate || UCLA || 24<br />
|-<br />
| US Geological Survey || US & Territories || Fluxgate || Narod, Technical Univ of Denmark || 11<br />
|-<br />
| NJIT / AGO || Antarctica || Fluxgate || Bell Labs || 7<br />
|-<br />
| NJIT / AGO || Antarctica || Induction Coil || Tohoku University || 5<br />
|-<br />
| MICA || Antarctica || Induction Coil || UNH || 5<br />
|-<br />
| MICA || Arctic Canada || Induction Coil || UNH || 4<br />
|-<br />
| MICA || Svalbard || Induction Coil || UNH || 4<br />
|}<br />
<br />
*Some locations listed here have instruments that are not currently operating.<br />
<br />
=== Ground Magnetometer Data ===<br />
<br />
[http://supermag.jhuapl.edu/ SuperMAG]<br />
<br />
[https://www.usgs.gov/natural-hazards/geomagnetism/data-tools USGS Geomagnetism Program]<br />
<br />
[https://www.intermagnet.org/ INTERMAGNET]<br />
<br />
[http://vmo.igpp.ucla.edu/data1/SECS/Quicklook/ Spherical Elementary Currents] from James Weygand<br />
<br />
[http://themis.ssl.berkeley.edu/gmag/gmag_list.php?selyear=4000&selmonth=13&smap=on&sinfo=on&saelist=on&ae=on THEMIS]<br />
<br />
[https://cdaweb.gsfc.nasa.gov/index.html/ NASA CDAWeb]<br />
<br />
[http://mirl.unh.edu/ulf_status.html UNH Magnetic Induction Coil Array (MICA)]<br />
<br />
[http://search.iugonet.org/list.jsp IUGONET]<br />
<br />
=== Digital Object Identifiers for Ground Magnetometer Data ===<br />
<br />
Digital Object Identifiers (DOI) allow authors to cite data products just as they refer to papers. This is becoming a requirement of many journals, as it assures that the specific data used in a publication are findable and accessible. The DOI provides a permanent identifier (PID) for the data, remaining unchanged even if the data are moved to another archive. The "creators" (authors) of the data must link the DOI to a "landing page" that provides details about the data and methods for accessing them. Our group recommends that each ground magnetometer network generate DOIs for their datasets, at minimum one DOI for their original measurements (i.e., before filtering and other types of processing are performed).<br />
<br />
As a member of the [https://datacite.org DataCite organization], NASA Heliophysics (HP) can "mint" DOIs for ground magnetometer datasets. NASA HP is providing an easy means to assign DOIs to datasets using the HP Digital Resource Registry (HDRR) by providing landing pages for datasets based on their "SPASE" resource descriptions. As an example, any users of NASA's OMNI dataset can now use https://doi.org/10.48322/1shr-ht18 for the hourly dataset, and other DOIs for other sets, discoverable by a search with the Heliophysics Data Portal (HDP; https://heliophysicsdata.gsfc.nasa.gov; look for "omni" in the "observatory" entry at the left). More details for DOI initiation for resources in the HDP can be found [https://hpde.gsfc.nasa.gov/DOI_Initiative_October_2020.pdf here]. For further information, and especially to start the process of registering DOIs, contact James Weygand (jweygand@igpp.ucla.edu or jweygand@epss.ucla.edu).<br />
<br />
As noted above, a SPASE resource description is required for each magnetometer dataset to mint a DOI. Here's an example for the [https://drive.google.com/file/d/1MxEDFAa_grGuCdID9vwK9pRzkzH7FQYR/view?usp=sharing MACCS magnetometer network 5s measurements].<br />
<br />
== 2019 GEM workshop meeting ==<br />
<br />
The ground magnetometer advisory board was formed in 2016 as a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts.<br />
<br />
We invite the GEM community to attend our meeting on Monday, June 24 at 1:30 PM, where we’ll discuss updates on all the above items. Later this year, we’ll add new members to the advisory board who either operate ground magnetometers or use magnetometer data to support their scientific investigations and/or space weather monitoring efforts. If you’re interested in learning more about this opportunity, please attend this GEM meeting or contact Mike Hartinger (mdhartin@vt.edu).<br />
<br />
Monday, 24 June, 1:30 PM, Location: Santa Fe<br />
*Mike Hartinger - Updates on ground magnetometer advisory board activities<br />
*Mark Engebretson - Summary of information gathering report<br />
*Lisa Winter - NSF updates<br />
*Hyomin Kim - DRUM/DASI updates and future plans, discussion<br />
*Jesper Gjerloev - SuperMAG updates<br />
*Josh Rigler - USGS updates, updates from other magnetometer arrays<br />
<br />
== 2019 mini-GEM workshop meeting ==<br />
<br />
Sunday, 8 December, 1200-1330, Location: Oregon Room<br />
*Mike Hartinger - [https://drive.google.com/file/d/1f3nDkQU4Red2gBLe_I5z_z0LOTHRyfN8/view?usp=sharing Introduction and Overview of Advisory Board activities, updates on DOI and new instruments]<br />
*Howard Singer - [https://drive.google.com/file/d/16poHzPvIM60z9Z7E_qXHznRGL80cjRRY/view?usp=sharing How ground magnetometers are currently incorporated into forecasts at SWPC, how they could be incorporated in the future]<br />
*Jennifer Gannon - How ground magnetometers can best be used to monitor/investigate GIC, utility-grade magnetometers<br />
*Endawoke Yizengaw - Open discussion with NSF, DRUM/DASI future proposal plans<br />
*Anna Kelbert - [https://drive.google.com/open?id=1XFHxruhasIRvZ3JDGtVtExZE6d87tM0X USGS Geomagnetism Program updates]<br />
*Peter Chi - update on ULTIMA activities / international collaboration<br />
*James Weygand - [https://drive.google.com/open?id=1Uq5ArdynNUk6ymbrBAcbFU9zbzH1eD3t Spherical Elementary Currents and Mid/Low Latitude Data Availability]<br />
*Walk-ins TBD (Amy Keesee/Mike Coughlin,...)<br />
<br />
<br />
== August 2020 Virtual Discussion: Ground Magnetometer Measurements for Heliophysics Research and Space Weather Monitoring ==<br />
<br />
Friday, 7 August, 1500-1630 EDT<br />
<br />
[https://drive.google.com/file/d/1uQ18wVmQC9de6zGn8wXVmXHvkomQPP63/view?usp=sharing Meeting Summary and Community Feedback from Google Form]<br />
<br />
Discussion from this meeting and previous meetings was summarized in this [https://drive.google.com/file/d/1-lrglV9h7OneMK8XK0yjnPk3XhhMMMNg/view?usp=sharing Heliophysics 2050 white paper].<br />
<br />
Invited Speakers<br />
* Syau-Yun Hsieh – [https://drive.google.com/file/d/1nRB6Xjc8F4tyGDtFHSoH6Tr3Kxh8hnkq/view?usp=sharing SMILE mission ground-based support]<br />
* Enrico Camporeale – [https://drive.google.com/file/d/1JiQTM6I4q9TIcEYDlHSfWwM1nkwaLjNS/view?usp=sharing Long-term continuous magnetometer data for geomagnetic activity prediction using machine learning]<br />
* Slava Merkin – [https://drive.google.com/file/d/1-nALz_h5IUMtUPPZKGQh3KNHS-GxbBqx/view?usp=sharing What is required of global magnetosphere-ionosphere-thermosphere models to predict ground magnetic perturbations]<br />
<br />
Project Updates<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/15fE4UXOXYYjACtDilek9s1DDd8h9ODho/view?usp=sharing SuperMAG]<br />
* Michelle Salzano, [https://drive.google.com/file/d/12fI2yM-q_fw-4-4cN_8Nsp3oECtohjPh/view?usp=sharing MICA]<br />
* Josh Rigler, [https://drive.google.com/file/d/1aYjQcO-56TyNB0U97bobyRVsu1D05iJo/view?usp=sharing USGS] <br />
* Jennifer Gannon, [https://drive.google.com/file/d/17KkpAGoV1OwOAsi8n6x3fTF2q6xk_CNV/view?usp=sharing MagStar]<br />
* Chuck Smith, [https://drive.google.com/file/d/1VuUgOTyFrrBxuvxmdbJoVgYeyEmAUgIw/view?usp=sharing Space Weather Underground]<br />
* Endawoke Yizengaw, iMAGS<br />
* Peter Chi, [https://drive.google.com/file/d/1CX26PkNjz_8mFhrmqX14ZxE1m8eO-Rw3/view?usp=sharing SMART]<br />
* Mark Moldwin, [https://drive.google.com/file/d/1zrSgS7iImyWW7rlXWtqheU4gWOLUS3LW/view?usp=sharing New Ground Mag and TEC/GPS system]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1thUuT5pZqMjWI4xR5ytT8IvXSRpBl72c/view?usp=sharing MACCS]<br />
* Don Hampton, [https://drive.google.com/file/d/1DQyBge17GT9r7Vjvjp5LYXio9yGUkLnU/view?usp=sharing GIMA]<br />
* Hyomin Kim, AGO<br />
* Mike Hartinger, [https://drive.google.com/file/d/1OArNCvEEsFdXwi7qmz9_WNQskhcRqBGW/view?usp=sharing AALPIP]<br />
<br />
== February 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research ==<br />
<br />
Thursday, 4 February, 1100-1230 US Eastern Time<br />
<br />
This virtual meeting will begin with an invited talk from Gary Egbert on current/future applications of ground magnetometers to geophysics research, including magnetotellurics research relevant to Heliophysics/GIC. This continues a series of discussions intended to gather feedback for the upcoming Heliophysics Decadal Survey.<br />
<br />
The rest of the meeting will be for updates from SuperMAG and individual magnetometer networks, NSF announcements, and discussion of magnetometer digital object identifiers.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
[https://agu.confex.com/agu/fm20/meetingapp.cgi/Paper/685551 Link] to Gary Egbert's 2020 AGU presentation, "Modeling Diurnal Variation Magnetic Fields for Mantle Induction Studies"<br />
<br />
* 1100-1105 Mike Hartinger, [https://drive.google.com/file/d/1FQUYC_Q0F3I97RAYrOsCN_piy9cu8OcG/view?usp=sharing Introduction and Updates on Digital Object Identifiers]<br />
* 1105-1125 Gary Egbert, [https://drive.google.com/file/d/1fvp4QiW5BpPxtlmopLaPxKp-x9SUX2Wx/view?usp=sharing Current and Future Applications of Ground Magnetometers to Geophysics Research]<br />
* 1125-1135 Jennifer Gannon, [https://drive.google.com/file/d/1AL3NasABl5eDSE-Gh71-MTcR8BuG-PpH/view?usp=sharing MagStar]<br />
* 1135-1145 Josh Rigler / Anna Kelbert, USGS Updates<br />
* 1145-1155 Whitham Reeve, [https://drive.google.com/file/d/1TUetaa2wE7W_b2-h0v3q287B0h6F8LzA/view?usp=sharing SAM-III]<br />
* 1155-1205 Rob Barnes / Matt Potter, [https://drive.google.com/file/d/1xXunj9lafw2m5C3AdDBHi6ZqTPpU-Jtf/view?usp=sharing SuperMAG Updates]<br />
* 1205-1215 [https://drive.google.com/file/d/1YDZB7mhG8rZS5EqzRIax4AvCL2wmm6q7/view?usp=sharing Collaboration tools and NSF opportunities]<br />
* 1215-1230 Additional Brief Project Updates: [https://drive.google.com/file/d/1R-SetUGvFfZyA0emtZtOxZ3WbjXXF2BN/view?usp=sharing MICA], [https://drive.google.com/file/d/1Z62YCvAGkvF2lJmHLAJOG3qtlFvYs09P/view?usp=sharing MACCS], [https://drive.google.com/file/d/1THwB7Cq0K5hhPhY_3BRh9R724FwXssD-/view?usp=sharing NJIT], [https://drive.google.com/file/d/17XYtKyofyw_1uRc1T69K2l7Qxiiccyau/view?usp=sharing AALPIP]<br />
<br />
== July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey ==<br />
<br />
Thursday, 8 July, 1200-1330 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey. The discussion began with several presentations related to open magnetometer science questions and infrastructure. The rest of the meeting was for open discussion on topics for magnetometer-related white papers for the decadal survey.<br />
<br />
[https://drive.google.com/file/d/1yEqAe-CuK0XQBLiP5vsrhEAg3LhRaIui/view?usp=sharing Meeting notes]<br />
<br />
* Mike Hartinger, [https://drive.google.com/file/d/1FVolkY5xVn4DeL_3TFQmLWIpcdl6vKHF/view?usp=sharing Overview of the Meeting, NSF Opportunities]<br />
* Adam Schultz, [https://drive.google.com/file/d/1iVcUlawbmcbkhyVZLdaLp1s-_f8QSKm7/view?usp=sharing Improving Situational Awareness of ground-level EM fields]<br />
* Dan Schneider, [https://drive.google.com/file/d/1KGiHVAEQkynAkKeqYFBwV0ynrrMAetke/view?usp=sharing QuakeFinder: Induction Coil Magnetometer Array]<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/1G4MGyKsbCIdBhNU0e3hoNqeA7HP_uZsD/view?usp=sharing SuperMAG news]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1pNoWfpl8XyaQ5qtKX1nMXJrzaxX3sIkk/view?usp=sharing Unresolved issues in MPE-GIC studies]</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=US_Ground-based_magnetometer_arrays&diff=5319US Ground-based magnetometer arrays2021-07-09T22:48:50Z<p>Mdhartin: /* July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey */</p>
<hr />
<div>=== US Ground Magnetometer Board ===<br />
<br />
This wiki page and related ground magnetometer board meetings are part of a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts. For more information about the current state and future of ground magnetometer networks in support of space weather monitoring and research, see this article in [https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017SW001718 Space Weather]. <br />
<br />
''Current Ground Magnetometer Board Members:''<br />
* Peter Chi<br />
* Mark Engebretson, (former chair)<br />
* Jennifer Gannon<br />
* Jesper Gjerloev<br />
* Michael Hartinger, (current chair, mhartinger@spacescience.org)<br />
* Hyomin Kim<br />
* Gang Lu<br />
* Josh Rigler<br />
* Michelle Salzano<br />
* Howard Singer<br />
* Endawoke Yizengaw<br />
<br />
''Former Ground Magnetometer Board Members:''<br />
* Carol Finn<br />
* Efthyia Zesta<br />
<br />
=== US-Sponsored Ground-Based Magnetometer Arrays and Programs* ===<br />
<br />
{| class="wikitable" style="width: 50%; height: 4em;"<br />
|-<br />
| Array || Location || Instruments || Manufacturer || No. of Locations<br />
|-<br />
| AAL-PIP || Antarctica || Fluxgate || Lviv Centre ISR || 6<br />
|-<br />
| AAL-PIP || Antarctica || Induction Coil || UNH || 4<br />
|-<br />
| AMBER || Africa || Fluxgate || UCLA || 7<br />
|-<br />
| AMBER || South America || Fluxgate || UCLA || 2<br />
|-<br />
| AMBER || East Asia || Fluxgate || UCLA || 4<br />
|-<br />
| Falcon || Continental US || Fluxgate || UCLA || 11<br />
|-<br />
| GIMA || Alaska || Fluxgate || Narod || 9<br />
|-<br />
| Jicamarca || South America || Fluxgate || UCLA || 2<br />
|-<br />
| LISN || South America || Fluxgate || Custom/Jicamarca || 6<br />
|-<br />
| MACCS || Arctic Canada || Fluxgate || Narod || 8<br />
|-<br />
| McMAC || Continental US & Mexico || Fluxgate || UCLA || 9<br />
|-<br />
| MEASURE || Continental US || Fluxgate || UCLA || 6<br />
|-<br />
| SAMBA || South America & Antarctica || Fluxgate || UCLA || 12<br />
|-<br />
| THEMIS || Continental US & Canada || Fluxgate || UCLA || 24<br />
|-<br />
| US Geological Survey || US & Territories || Fluxgate || Narod, Technical Univ of Denmark || 11<br />
|-<br />
| NJIT / AGO || Antarctica || Fluxgate || Bell Labs || 7<br />
|-<br />
| NJIT / AGO || Antarctica || Induction Coil || Tohoku University || 5<br />
|-<br />
| MICA || Antarctica || Induction Coil || UNH || 5<br />
|-<br />
| MICA || Arctic Canada || Induction Coil || UNH || 4<br />
|-<br />
| MICA || Svalbard || Induction Coil || UNH || 4<br />
|}<br />
<br />
*Some locations listed here have instruments that are not currently operating.<br />
<br />
=== Ground Magnetometer Data ===<br />
<br />
[http://supermag.jhuapl.edu/ SuperMAG]<br />
<br />
[https://www.usgs.gov/natural-hazards/geomagnetism/data-tools USGS Geomagnetism Program]<br />
<br />
[https://www.intermagnet.org/ INTERMAGNET]<br />
<br />
[http://vmo.igpp.ucla.edu/data1/SECS/Quicklook/ Spherical Elementary Currents] from James Weygand<br />
<br />
[http://themis.ssl.berkeley.edu/gmag/gmag_list.php?selyear=4000&selmonth=13&smap=on&sinfo=on&saelist=on&ae=on THEMIS]<br />
<br />
[https://cdaweb.gsfc.nasa.gov/index.html/ NASA CDAWeb]<br />
<br />
[http://mirl.unh.edu/ulf_status.html UNH Magnetic Induction Coil Array (MICA)]<br />
<br />
[http://search.iugonet.org/list.jsp IUGONET]<br />
<br />
=== Digital Object Identifiers for Ground Magnetometer Data ===<br />
<br />
Digital Object Identifiers (DOI) allow authors to cite data products just as they refer to papers. This is becoming a requirement of many journals, as it assures that the specific data used in a publication are findable and accessible. The DOI provides a permanent identifier (PID) for the data, remaining unchanged even if the data are moved to another archive. The "creators" (authors) of the data must link the DOI to a "landing page" that provides details about the data and methods for accessing them. Our group recommends that each ground magnetometer network generate DOIs for their datasets, at minimum one DOI for their original measurements (i.e., before filtering and other types of processing are performed).<br />
<br />
As a member of the [https://datacite.org DataCite organization], NASA Heliophysics (HP) can "mint" DOIs for ground magnetometer datasets. NASA HP is providing an easy means to assign DOIs to datasets using the HP Digital Resource Registry (HDRR) by providing landing pages for datasets based on their "SPASE" resource descriptions. As an example, any users of NASA's OMNI dataset can now use https://doi.org/10.48322/1shr-ht18 for the hourly dataset, and other DOIs for other sets, discoverable by a search with the Heliophysics Data Portal (HDP; https://heliophysicsdata.gsfc.nasa.gov; look for "omni" in the "observatory" entry at the left). More details for DOI initiation for resources in the HDP can be found [https://hpde.gsfc.nasa.gov/DOI_Initiative_October_2020.pdf here]. For further information, and especially to start the process of registering DOIs, contact James Weygand (jweygand@igpp.ucla.edu or jweygand@epss.ucla.edu).<br />
<br />
As noted above, a SPASE resource description is required for each magnetometer dataset to mint a DOI. Here's an example for the [https://drive.google.com/file/d/1MxEDFAa_grGuCdID9vwK9pRzkzH7FQYR/view?usp=sharing MACCS magnetometer network 5s measurements].<br />
<br />
== 2019 GEM workshop meeting ==<br />
<br />
The ground magnetometer advisory board was formed in 2016 as a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts.<br />
<br />
We invite the GEM community to attend our meeting on Monday, June 24 at 1:30 PM, where we’ll discuss updates on all the above items. Later this year, we’ll add new members to the advisory board who either operate ground magnetometers or use magnetometer data to support their scientific investigations and/or space weather monitoring efforts. If you’re interested in learning more about this opportunity, please attend this GEM meeting or contact Mike Hartinger (mdhartin@vt.edu).<br />
<br />
Monday, 24 June, 1:30 PM, Location: Santa Fe<br />
*Mike Hartinger - Updates on ground magnetometer advisory board activities<br />
*Mark Engebretson - Summary of information gathering report<br />
*Lisa Winter - NSF updates<br />
*Hyomin Kim - DRUM/DASI updates and future plans, discussion<br />
*Jesper Gjerloev - SuperMAG updates<br />
*Josh Rigler - USGS updates, updates from other magnetometer arrays<br />
<br />
== 2019 mini-GEM workshop meeting ==<br />
<br />
Sunday, 8 December, 1200-1330, Location: Oregon Room<br />
*Mike Hartinger - [https://drive.google.com/file/d/1f3nDkQU4Red2gBLe_I5z_z0LOTHRyfN8/view?usp=sharing Introduction and Overview of Advisory Board activities, updates on DOI and new instruments]<br />
*Howard Singer - [https://drive.google.com/file/d/16poHzPvIM60z9Z7E_qXHznRGL80cjRRY/view?usp=sharing How ground magnetometers are currently incorporated into forecasts at SWPC, how they could be incorporated in the future]<br />
*Jennifer Gannon - How ground magnetometers can best be used to monitor/investigate GIC, utility-grade magnetometers<br />
*Endawoke Yizengaw - Open discussion with NSF, DRUM/DASI future proposal plans<br />
*Anna Kelbert - [https://drive.google.com/open?id=1XFHxruhasIRvZ3JDGtVtExZE6d87tM0X USGS Geomagnetism Program updates]<br />
*Peter Chi - update on ULTIMA activities / international collaboration<br />
*James Weygand - [https://drive.google.com/open?id=1Uq5ArdynNUk6ymbrBAcbFU9zbzH1eD3t Spherical Elementary Currents and Mid/Low Latitude Data Availability]<br />
*Walk-ins TBD (Amy Keesee/Mike Coughlin,...)<br />
<br />
<br />
== August 2020 Virtual Discussion: Ground Magnetometer Measurements for Heliophysics Research and Space Weather Monitoring ==<br />
<br />
Friday, 7 August, 1500-1630 EDT<br />
<br />
[https://drive.google.com/file/d/1uQ18wVmQC9de6zGn8wXVmXHvkomQPP63/view?usp=sharing Meeting Summary and Community Feedback from Google Form]<br />
<br />
Discussion from this meeting and previous meetings was summarized in this [https://drive.google.com/file/d/1-lrglV9h7OneMK8XK0yjnPk3XhhMMMNg/view?usp=sharing Heliophysics 2050 white paper].<br />
<br />
Invited Speakers<br />
* Syau-Yun Hsieh – [https://drive.google.com/file/d/1nRB6Xjc8F4tyGDtFHSoH6Tr3Kxh8hnkq/view?usp=sharing SMILE mission ground-based support]<br />
* Enrico Camporeale – [https://drive.google.com/file/d/1JiQTM6I4q9TIcEYDlHSfWwM1nkwaLjNS/view?usp=sharing Long-term continuous magnetometer data for geomagnetic activity prediction using machine learning]<br />
* Slava Merkin – [https://drive.google.com/file/d/1-nALz_h5IUMtUPPZKGQh3KNHS-GxbBqx/view?usp=sharing What is required of global magnetosphere-ionosphere-thermosphere models to predict ground magnetic perturbations]<br />
<br />
Project Updates<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/15fE4UXOXYYjACtDilek9s1DDd8h9ODho/view?usp=sharing SuperMAG]<br />
* Michelle Salzano, [https://drive.google.com/file/d/12fI2yM-q_fw-4-4cN_8Nsp3oECtohjPh/view?usp=sharing MICA]<br />
* Josh Rigler, [https://drive.google.com/file/d/1aYjQcO-56TyNB0U97bobyRVsu1D05iJo/view?usp=sharing USGS] <br />
* Jennifer Gannon, [https://drive.google.com/file/d/17KkpAGoV1OwOAsi8n6x3fTF2q6xk_CNV/view?usp=sharing MagStar]<br />
* Chuck Smith, [https://drive.google.com/file/d/1VuUgOTyFrrBxuvxmdbJoVgYeyEmAUgIw/view?usp=sharing Space Weather Underground]<br />
* Endawoke Yizengaw, iMAGS<br />
* Peter Chi, [https://drive.google.com/file/d/1CX26PkNjz_8mFhrmqX14ZxE1m8eO-Rw3/view?usp=sharing SMART]<br />
* Mark Moldwin, [https://drive.google.com/file/d/1zrSgS7iImyWW7rlXWtqheU4gWOLUS3LW/view?usp=sharing New Ground Mag and TEC/GPS system]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1thUuT5pZqMjWI4xR5ytT8IvXSRpBl72c/view?usp=sharing MACCS]<br />
* Don Hampton, [https://drive.google.com/file/d/1DQyBge17GT9r7Vjvjp5LYXio9yGUkLnU/view?usp=sharing GIMA]<br />
* Hyomin Kim, AGO<br />
* Mike Hartinger, [https://drive.google.com/file/d/1OArNCvEEsFdXwi7qmz9_WNQskhcRqBGW/view?usp=sharing AALPIP]<br />
<br />
== February 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research ==<br />
<br />
Thursday, 4 February, 1100-1230 US Eastern Time<br />
<br />
This virtual meeting will begin with an invited talk from Gary Egbert on current/future applications of ground magnetometers to geophysics research, including magnetotellurics research relevant to Heliophysics/GIC. This continues a series of discussions intended to gather feedback for the upcoming Heliophysics Decadal Survey.<br />
<br />
The rest of the meeting will be for updates from SuperMAG and individual magnetometer networks, NSF announcements, and discussion of magnetometer digital object identifiers.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
[https://agu.confex.com/agu/fm20/meetingapp.cgi/Paper/685551 Link] to Gary Egbert's 2020 AGU presentation, "Modeling Diurnal Variation Magnetic Fields for Mantle Induction Studies"<br />
<br />
* 1100-1105 Mike Hartinger, [https://drive.google.com/file/d/1FQUYC_Q0F3I97RAYrOsCN_piy9cu8OcG/view?usp=sharing Introduction and Updates on Digital Object Identifiers]<br />
* 1105-1125 Gary Egbert, [https://drive.google.com/file/d/1fvp4QiW5BpPxtlmopLaPxKp-x9SUX2Wx/view?usp=sharing Current and Future Applications of Ground Magnetometers to Geophysics Research]<br />
* 1125-1135 Jennifer Gannon, [https://drive.google.com/file/d/1AL3NasABl5eDSE-Gh71-MTcR8BuG-PpH/view?usp=sharing MagStar]<br />
* 1135-1145 Josh Rigler / Anna Kelbert, USGS Updates<br />
* 1145-1155 Whitham Reeve, [https://drive.google.com/file/d/1TUetaa2wE7W_b2-h0v3q287B0h6F8LzA/view?usp=sharing SAM-III]<br />
* 1155-1205 Rob Barnes / Matt Potter, [https://drive.google.com/file/d/1xXunj9lafw2m5C3AdDBHi6ZqTPpU-Jtf/view?usp=sharing SuperMAG Updates]<br />
* 1205-1215 [https://drive.google.com/file/d/1YDZB7mhG8rZS5EqzRIax4AvCL2wmm6q7/view?usp=sharing Collaboration tools and NSF opportunities]<br />
* 1215-1230 Additional Brief Project Updates: [https://drive.google.com/file/d/1R-SetUGvFfZyA0emtZtOxZ3WbjXXF2BN/view?usp=sharing MICA], [https://drive.google.com/file/d/1Z62YCvAGkvF2lJmHLAJOG3qtlFvYs09P/view?usp=sharing MACCS], [https://drive.google.com/file/d/1THwB7Cq0K5hhPhY_3BRh9R724FwXssD-/view?usp=sharing NJIT], [https://drive.google.com/file/d/17XYtKyofyw_1uRc1T69K2l7Qxiiccyau/view?usp=sharing AALPIP]<br />
<br />
== July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey ==<br />
<br />
Thursday, 8 July, 1200-1330 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey. The discussion began with several presentations related to open magnetometer science questions and infrastructure. The rest of the meeting was for open discussion on topics for magnetometer-related white papers for the decadal survey.<br />
<br />
Meeting notes and summary coming soon<br />
<br />
* Mike Hartinger, [https://drive.google.com/file/d/1FVolkY5xVn4DeL_3TFQmLWIpcdl6vKHF/view?usp=sharing Overview of the Meeting, NSF Opportunities]<br />
* Adam Schultz, [https://drive.google.com/file/d/1iVcUlawbmcbkhyVZLdaLp1s-_f8QSKm7/view?usp=sharing Improving Situational Awareness of ground-level EM fields]<br />
* Dan Schneider, [https://drive.google.com/file/d/1KGiHVAEQkynAkKeqYFBwV0ynrrMAetke/view?usp=sharing QuakeFinder: Induction Coil Magnetometer Array]<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/1G4MGyKsbCIdBhNU0e3hoNqeA7HP_uZsD/view?usp=sharing SuperMAG news]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1pNoWfpl8XyaQ5qtKX1nMXJrzaxX3sIkk/view?usp=sharing Unresolved issues in MPE-GIC studies]</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=US_Ground-based_magnetometer_arrays&diff=5318US Ground-based magnetometer arrays2021-07-09T22:31:50Z<p>Mdhartin: </p>
<hr />
<div>=== US Ground Magnetometer Board ===<br />
<br />
This wiki page and related ground magnetometer board meetings are part of a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts. For more information about the current state and future of ground magnetometer networks in support of space weather monitoring and research, see this article in [https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017SW001718 Space Weather]. <br />
<br />
''Current Ground Magnetometer Board Members:''<br />
* Peter Chi<br />
* Mark Engebretson, (former chair)<br />
* Jennifer Gannon<br />
* Jesper Gjerloev<br />
* Michael Hartinger, (current chair, mhartinger@spacescience.org)<br />
* Hyomin Kim<br />
* Gang Lu<br />
* Josh Rigler<br />
* Michelle Salzano<br />
* Howard Singer<br />
* Endawoke Yizengaw<br />
<br />
''Former Ground Magnetometer Board Members:''<br />
* Carol Finn<br />
* Efthyia Zesta<br />
<br />
=== US-Sponsored Ground-Based Magnetometer Arrays and Programs* ===<br />
<br />
{| class="wikitable" style="width: 50%; height: 4em;"<br />
|-<br />
| Array || Location || Instruments || Manufacturer || No. of Locations<br />
|-<br />
| AAL-PIP || Antarctica || Fluxgate || Lviv Centre ISR || 6<br />
|-<br />
| AAL-PIP || Antarctica || Induction Coil || UNH || 4<br />
|-<br />
| AMBER || Africa || Fluxgate || UCLA || 7<br />
|-<br />
| AMBER || South America || Fluxgate || UCLA || 2<br />
|-<br />
| AMBER || East Asia || Fluxgate || UCLA || 4<br />
|-<br />
| Falcon || Continental US || Fluxgate || UCLA || 11<br />
|-<br />
| GIMA || Alaska || Fluxgate || Narod || 9<br />
|-<br />
| Jicamarca || South America || Fluxgate || UCLA || 2<br />
|-<br />
| LISN || South America || Fluxgate || Custom/Jicamarca || 6<br />
|-<br />
| MACCS || Arctic Canada || Fluxgate || Narod || 8<br />
|-<br />
| McMAC || Continental US & Mexico || Fluxgate || UCLA || 9<br />
|-<br />
| MEASURE || Continental US || Fluxgate || UCLA || 6<br />
|-<br />
| SAMBA || South America & Antarctica || Fluxgate || UCLA || 12<br />
|-<br />
| THEMIS || Continental US & Canada || Fluxgate || UCLA || 24<br />
|-<br />
| US Geological Survey || US & Territories || Fluxgate || Narod, Technical Univ of Denmark || 11<br />
|-<br />
| NJIT / AGO || Antarctica || Fluxgate || Bell Labs || 7<br />
|-<br />
| NJIT / AGO || Antarctica || Induction Coil || Tohoku University || 5<br />
|-<br />
| MICA || Antarctica || Induction Coil || UNH || 5<br />
|-<br />
| MICA || Arctic Canada || Induction Coil || UNH || 4<br />
|-<br />
| MICA || Svalbard || Induction Coil || UNH || 4<br />
|}<br />
<br />
*Some locations listed here have instruments that are not currently operating.<br />
<br />
=== Ground Magnetometer Data ===<br />
<br />
[http://supermag.jhuapl.edu/ SuperMAG]<br />
<br />
[https://www.usgs.gov/natural-hazards/geomagnetism/data-tools USGS Geomagnetism Program]<br />
<br />
[https://www.intermagnet.org/ INTERMAGNET]<br />
<br />
[http://vmo.igpp.ucla.edu/data1/SECS/Quicklook/ Spherical Elementary Currents] from James Weygand<br />
<br />
[http://themis.ssl.berkeley.edu/gmag/gmag_list.php?selyear=4000&selmonth=13&smap=on&sinfo=on&saelist=on&ae=on THEMIS]<br />
<br />
[https://cdaweb.gsfc.nasa.gov/index.html/ NASA CDAWeb]<br />
<br />
[http://mirl.unh.edu/ulf_status.html UNH Magnetic Induction Coil Array (MICA)]<br />
<br />
[http://search.iugonet.org/list.jsp IUGONET]<br />
<br />
=== Digital Object Identifiers for Ground Magnetometer Data ===<br />
<br />
Digital Object Identifiers (DOI) allow authors to cite data products just as they refer to papers. This is becoming a requirement of many journals, as it assures that the specific data used in a publication are findable and accessible. The DOI provides a permanent identifier (PID) for the data, remaining unchanged even if the data are moved to another archive. The "creators" (authors) of the data must link the DOI to a "landing page" that provides details about the data and methods for accessing them. Our group recommends that each ground magnetometer network generate DOIs for their datasets, at minimum one DOI for their original measurements (i.e., before filtering and other types of processing are performed).<br />
<br />
As a member of the [https://datacite.org DataCite organization], NASA Heliophysics (HP) can "mint" DOIs for ground magnetometer datasets. NASA HP is providing an easy means to assign DOIs to datasets using the HP Digital Resource Registry (HDRR) by providing landing pages for datasets based on their "SPASE" resource descriptions. As an example, any users of NASA's OMNI dataset can now use https://doi.org/10.48322/1shr-ht18 for the hourly dataset, and other DOIs for other sets, discoverable by a search with the Heliophysics Data Portal (HDP; https://heliophysicsdata.gsfc.nasa.gov; look for "omni" in the "observatory" entry at the left). More details for DOI initiation for resources in the HDP can be found [https://hpde.gsfc.nasa.gov/DOI_Initiative_October_2020.pdf here]. For further information, and especially to start the process of registering DOIs, contact James Weygand (jweygand@igpp.ucla.edu or jweygand@epss.ucla.edu).<br />
<br />
As noted above, a SPASE resource description is required for each magnetometer dataset to mint a DOI. Here's an example for the [https://drive.google.com/file/d/1MxEDFAa_grGuCdID9vwK9pRzkzH7FQYR/view?usp=sharing MACCS magnetometer network 5s measurements].<br />
<br />
== 2019 GEM workshop meeting ==<br />
<br />
The ground magnetometer advisory board was formed in 2016 as a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts.<br />
<br />
We invite the GEM community to attend our meeting on Monday, June 24 at 1:30 PM, where we’ll discuss updates on all the above items. Later this year, we’ll add new members to the advisory board who either operate ground magnetometers or use magnetometer data to support their scientific investigations and/or space weather monitoring efforts. If you’re interested in learning more about this opportunity, please attend this GEM meeting or contact Mike Hartinger (mdhartin@vt.edu).<br />
<br />
Monday, 24 June, 1:30 PM, Location: Santa Fe<br />
*Mike Hartinger - Updates on ground magnetometer advisory board activities<br />
*Mark Engebretson - Summary of information gathering report<br />
*Lisa Winter - NSF updates<br />
*Hyomin Kim - DRUM/DASI updates and future plans, discussion<br />
*Jesper Gjerloev - SuperMAG updates<br />
*Josh Rigler - USGS updates, updates from other magnetometer arrays<br />
<br />
== 2019 mini-GEM workshop meeting ==<br />
<br />
Sunday, 8 December, 1200-1330, Location: Oregon Room<br />
*Mike Hartinger - [https://drive.google.com/file/d/1f3nDkQU4Red2gBLe_I5z_z0LOTHRyfN8/view?usp=sharing Introduction and Overview of Advisory Board activities, updates on DOI and new instruments]<br />
*Howard Singer - [https://drive.google.com/file/d/16poHzPvIM60z9Z7E_qXHznRGL80cjRRY/view?usp=sharing How ground magnetometers are currently incorporated into forecasts at SWPC, how they could be incorporated in the future]<br />
*Jennifer Gannon - How ground magnetometers can best be used to monitor/investigate GIC, utility-grade magnetometers<br />
*Endawoke Yizengaw - Open discussion with NSF, DRUM/DASI future proposal plans<br />
*Anna Kelbert - [https://drive.google.com/open?id=1XFHxruhasIRvZ3JDGtVtExZE6d87tM0X USGS Geomagnetism Program updates]<br />
*Peter Chi - update on ULTIMA activities / international collaboration<br />
*James Weygand - [https://drive.google.com/open?id=1Uq5ArdynNUk6ymbrBAcbFU9zbzH1eD3t Spherical Elementary Currents and Mid/Low Latitude Data Availability]<br />
*Walk-ins TBD (Amy Keesee/Mike Coughlin,...)<br />
<br />
<br />
== August 2020 Virtual Discussion: Ground Magnetometer Measurements for Heliophysics Research and Space Weather Monitoring ==<br />
<br />
Friday, 7 August, 1500-1630 EDT<br />
<br />
[https://drive.google.com/file/d/1uQ18wVmQC9de6zGn8wXVmXHvkomQPP63/view?usp=sharing Meeting Summary and Community Feedback from Google Form]<br />
<br />
Discussion from this meeting and previous meetings was summarized in this [https://drive.google.com/file/d/1-lrglV9h7OneMK8XK0yjnPk3XhhMMMNg/view?usp=sharing Heliophysics 2050 white paper].<br />
<br />
Invited Speakers<br />
* Syau-Yun Hsieh – [https://drive.google.com/file/d/1nRB6Xjc8F4tyGDtFHSoH6Tr3Kxh8hnkq/view?usp=sharing SMILE mission ground-based support]<br />
* Enrico Camporeale – [https://drive.google.com/file/d/1JiQTM6I4q9TIcEYDlHSfWwM1nkwaLjNS/view?usp=sharing Long-term continuous magnetometer data for geomagnetic activity prediction using machine learning]<br />
* Slava Merkin – [https://drive.google.com/file/d/1-nALz_h5IUMtUPPZKGQh3KNHS-GxbBqx/view?usp=sharing What is required of global magnetosphere-ionosphere-thermosphere models to predict ground magnetic perturbations]<br />
<br />
Project Updates<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/15fE4UXOXYYjACtDilek9s1DDd8h9ODho/view?usp=sharing SuperMAG]<br />
* Michelle Salzano, [https://drive.google.com/file/d/12fI2yM-q_fw-4-4cN_8Nsp3oECtohjPh/view?usp=sharing MICA]<br />
* Josh Rigler, [https://drive.google.com/file/d/1aYjQcO-56TyNB0U97bobyRVsu1D05iJo/view?usp=sharing USGS] <br />
* Jennifer Gannon, [https://drive.google.com/file/d/17KkpAGoV1OwOAsi8n6x3fTF2q6xk_CNV/view?usp=sharing MagStar]<br />
* Chuck Smith, [https://drive.google.com/file/d/1VuUgOTyFrrBxuvxmdbJoVgYeyEmAUgIw/view?usp=sharing Space Weather Underground]<br />
* Endawoke Yizengaw, iMAGS<br />
* Peter Chi, [https://drive.google.com/file/d/1CX26PkNjz_8mFhrmqX14ZxE1m8eO-Rw3/view?usp=sharing SMART]<br />
* Mark Moldwin, [https://drive.google.com/file/d/1zrSgS7iImyWW7rlXWtqheU4gWOLUS3LW/view?usp=sharing New Ground Mag and TEC/GPS system]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1thUuT5pZqMjWI4xR5ytT8IvXSRpBl72c/view?usp=sharing MACCS]<br />
* Don Hampton, [https://drive.google.com/file/d/1DQyBge17GT9r7Vjvjp5LYXio9yGUkLnU/view?usp=sharing GIMA]<br />
* Hyomin Kim, AGO<br />
* Mike Hartinger, [https://drive.google.com/file/d/1OArNCvEEsFdXwi7qmz9_WNQskhcRqBGW/view?usp=sharing AALPIP]<br />
<br />
== February 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research ==<br />
<br />
Thursday, 4 February, 1100-1230 US Eastern Time<br />
<br />
This virtual meeting will begin with an invited talk from Gary Egbert on current/future applications of ground magnetometers to geophysics research, including magnetotellurics research relevant to Heliophysics/GIC. This continues a series of discussions intended to gather feedback for the upcoming Heliophysics Decadal Survey.<br />
<br />
The rest of the meeting will be for updates from SuperMAG and individual magnetometer networks, NSF announcements, and discussion of magnetometer digital object identifiers.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
[https://agu.confex.com/agu/fm20/meetingapp.cgi/Paper/685551 Link] to Gary Egbert's 2020 AGU presentation, "Modeling Diurnal Variation Magnetic Fields for Mantle Induction Studies"<br />
<br />
* 1100-1105 Mike Hartinger, [https://drive.google.com/file/d/1FQUYC_Q0F3I97RAYrOsCN_piy9cu8OcG/view?usp=sharing Introduction and Updates on Digital Object Identifiers]<br />
* 1105-1125 Gary Egbert, [https://drive.google.com/file/d/1fvp4QiW5BpPxtlmopLaPxKp-x9SUX2Wx/view?usp=sharing Current and Future Applications of Ground Magnetometers to Geophysics Research]<br />
* 1125-1135 Jennifer Gannon, [https://drive.google.com/file/d/1AL3NasABl5eDSE-Gh71-MTcR8BuG-PpH/view?usp=sharing MagStar]<br />
* 1135-1145 Josh Rigler / Anna Kelbert, USGS Updates<br />
* 1145-1155 Whitham Reeve, [https://drive.google.com/file/d/1TUetaa2wE7W_b2-h0v3q287B0h6F8LzA/view?usp=sharing SAM-III]<br />
* 1155-1205 Rob Barnes / Matt Potter, [https://drive.google.com/file/d/1xXunj9lafw2m5C3AdDBHi6ZqTPpU-Jtf/view?usp=sharing SuperMAG Updates]<br />
* 1205-1215 [https://drive.google.com/file/d/1YDZB7mhG8rZS5EqzRIax4AvCL2wmm6q7/view?usp=sharing Collaboration tools and NSF opportunities]<br />
* 1215-1230 Additional Brief Project Updates: [https://drive.google.com/file/d/1R-SetUGvFfZyA0emtZtOxZ3WbjXXF2BN/view?usp=sharing MICA], [https://drive.google.com/file/d/1Z62YCvAGkvF2lJmHLAJOG3qtlFvYs09P/view?usp=sharing MACCS], [https://drive.google.com/file/d/1THwB7Cq0K5hhPhY_3BRh9R724FwXssD-/view?usp=sharing NJIT], [https://drive.google.com/file/d/17XYtKyofyw_1uRc1T69K2l7Qxiiccyau/view?usp=sharing AALPIP]<br />
<br />
== July 2021 Virtual Discussion: Input from Ground Magnetometer Community to the Decadal Survey ==<br />
<br />
Thursday, 8 July, 1200-1330 US Eastern Time<br />
<br />
This virtual meeting focused on gathering feedback for the Solar and Space Physics Decadal Survey. The discussion began with several presentations related to open magnetometer science questions and infrastructure. The rest of the meeting was for open discussion on topics for magnetometer-related white papers for the decadal survey.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
* Mike Hartinger, [https://drive.google.com/file/d/1FVolkY5xVn4DeL_3TFQmLWIpcdl6vKHF/view?usp=sharing Overview of the Meeting, NSF Opportunities]<br />
* Adam Schultz, [https://drive.google.com/file/d/1iVcUlawbmcbkhyVZLdaLp1s-_f8QSKm7/view?usp=sharing Improving Situational Awareness of ground-level EM fields]<br />
* Dan Schneider, [https://drive.google.com/file/d/1KGiHVAEQkynAkKeqYFBwV0ynrrMAetke/view?usp=sharing QuakeFinder: Induction Coil Magnetometer Array]<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/1G4MGyKsbCIdBhNU0e3hoNqeA7HP_uZsD/view?usp=sharing SuperMAG news]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1pNoWfpl8XyaQ5qtKX1nMXJrzaxX3sIkk/view?usp=sharing Unresolved issues in MPE-GIC studies]</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=FG:_ULF_Wave_Modeling,_Effects,_and_Applications&diff=5314FG: ULF Wave Modeling, Effects, and Applications2021-07-03T18:38:11Z<p>Mdhartin: /* 2021 VGEM schedule */</p>
<hr />
<div>''Focus Group Leaders:''<br />
* Michael Hartinger, Space Science Institute (mhartinger@spacescience.org)<br />
* Kazue Takahashi, Applied Physics Laboratory<br />
* Alexander Drozdov, UCLA<br />
* Maria Usanova, University of Colorado<br />
* Brian Kress, University of Colorado and NOAA-NCEI<br />
* Xueling Shi, Virginia Tech<br />
<br />
Focus Group term: 2016-2021<br />
<br />
Join the discussion on [https://gemworkshop.slack.com/archives/C016U8PA7TJ Slack], including discussion related to the 2020 GEM and 2021 miniGEM meetings.<br />
<br />
== Science Questions ==<br />
Our group aims to address the following broad science questions: What mechanisms excite ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in Magnetosphere-Ionosphere coupling?<br />
<br />
== Focus Group Proposal ==<br />
[http://gem.epss.ucla.edu/mediawiki/FGproposals/Hartinger-UMEA.pdf ULF Wave Modeling, Effects, and Applications (UMEA)] (December 2015)<br />
<br />
== ULF wave modeling challenge ==<br />
<br />
One part of the ULF wave modeling challenge involves running several global MHD simulation codes with identical, idealized solar wind driving conditions (sinusoidal density variation), then comparing the resulting global ULF wave properties and discussing differences in the context of differing boundary conditions, grids, etc. More details can be found here: [http://ccmc.gsfc.nasa.gov/challenges/ULF/ ULF wave modeling challenge at CCMC]<br />
<br />
Another part of the ULF wave modeling challenge involves data-model comparisons during specific events. At the 2017 GEM and mini-GEM meetings several [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing challenge events] were proposed, including two [https://drive.google.com/open?id=1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI 2017 events].<br />
<br />
We have selected the [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing 27-28 May 2017 storm event] for the ULF wave modeling challenge due to favorable solar wind coverage and availability of numerous satellites (MMS, ARASE, THEMIS, RBSP, Cluster, GOES, ...) and ground-based observations for global context and multi-point wave observations. We will be continuously updating this [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing overview presentation] with observation and modeling results. Model output and observations for the challenge event - including global densities from the NURD model - can be obtained [https://drive.google.com/drive/folders/1Bk9vJtbEHd-vSuYqr3UG9NGCqaBn69hw?usp=sharing here]. If you would like to add additional observations/model output to the google drive or overview pdf, please contact the co-chairs.<br />
<br />
CCMC has run several global MHD simulation codes using the driving conditions of the ULF wave challenge event. At the 2019 GEM meeting and future GEM/mini-GEM meetings, we plan data-model comparisons to identify where model/data don't agree and discuss these differences in the context of incorrect boundary conditions (e.g., compare model ionosphere to local PFISR-derived conductivities), missing physics, numerical dissipation, etc. Please contact CCMC/Lutz Rastaetter and model developers before using this simulation output in publications:<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_SWMF_040319_1 Space Weather Modeling Framework simulation], IMF Bx=0 (other parameters as in event). Full 2-day event, 3D output every 15s, virtual ground magnetometer. If you haven't used CCMC visualization tools before, be aware that you shouldn’t submit multiple visualization requests at the same time, as this could crash CCMC server for these large 3D files. Instead, request a batch process or wait for the first visualization request to complete. The easiest/fastest visualization is to follow the link above and scroll down until you see the virtual ground magnetometer and satellites list. Click on the magnetometer/satellite of interest, then select which parameter(s) to display/download. <br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_1 OpenGGCM run 1] – IMF Bx = -7 nT. Smaller time range available on 28 May 0400-1000, only virtual ground magnetometer from POKR/CMO available now. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_1 Full results including virtual satellite.]<br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_2 Open GGCM run 2] – IMF Bx = 0 nT (as in SWMF simulation). Same format as other OpenGGCM simulation. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_2 Full results including virtual satellite.]<br />
<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_LFM_051519_2 LFM simulation]<br />
<br />
== ULF wave HGSO event coordination ==<br />
Our group is helping coordinate analysis of conjunction events for ULF wave studies, including requesting instrument operation modes favorable for ULF wave analysis.<br />
<br />
The [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] 0400-0800 UT conjunction event includes several satellites (THEMIS, Cluster, Van Allen Probes, GOES, Geotail, FIREBIRD, METOP, POES, DMSP) in the pre-midnight sector during a conjunction with the Poker Flat Incoherent Scatter Radar and several SuperDARN radars. PFISR was operating throughout the conjunction, several SuperDARN radars were in high resolution sampling modes, and several satellites were operating in fast survey/burst mode. The conjunction is favorable for modeling and observation studies of magnetosphere-ionosphere coupling via ULF waves, wave-particle interactions, global ULF wave properties, and many other topics. [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing This pdf] summarizes preliminary results<br />
<br />
Several web-based tools are available for identifying future conjunctions, including [https://ergsc.isee.nagoya-u.ac.jp/analysis/index.shtml.en upcoming conjunctions between ARASE and Van Allen Probes/ground] and conjunctions between [https://swarm-aurora.com/conjunctionFinder/ SWARM/all-sky cameras].<br />
<br />
'''There are also many specialized, web-based tools for ULF wave analysis (please contact FG co-chairs to add to this list):'''<br />
<br />
*SuperMAG ground-based magnetometer [http://supermag.jhuapl.edu/rBrowse/?start=2001-01-30T05%3A00%3A00.000Z&step=14400 global ULF wave plots]<br />
<br />
*CARISMA ground-based magnetometer [http://www.carisma.ca/carisma-data/fgm-pc1-power-spectra Pc1 power spectra] and [http://www.carisma.ca/carisma-data/fgm-pc5-power-spectra Pc5 power spectra]<br />
<br />
*Augsburg College/UNH Arctic and Antarctic [http://space.augsburg.edu/searchcoil/index.html search coil magnetometer survey plots] <br />
<br />
*Augsburg College (hosted by ViRBO) [http://virbo.org/Augsburg/ULF ULF wave index]<br />
<br />
*[http://vt.superdarn.org/tiki-index.php?page=DaViT+DynFFT SuperDARN wave analysis] and [http://vt.superdarn.org/tiki-index.php?page=Data+Inventory identification of high time-resolution SuperDARN beams]<br />
<br />
*THEMIS satellite fluxgate magnetometer [http://themis.ssl.berkeley.edu/summary.php?year=2014&month=05&day=11&hour=0024&sumType=thmfgmdyn&type=themislinfgl wave survey plots]<br />
<br />
*National Institute of Polar Research inter-hemispheric comparisons of Syowa/Iceland [http://iugonet0.nipr.ac.jp/web/induction/ induction magnetometer spectra]<br />
<br />
*[http://mist.nianet.org/Satellite_Conjunctions/ Inter-hemispheric comparisons] during satellite conjunctions with Arctic(DTU Space)/Antarctic(Virginia Tech) magnetometers<br />
<br />
*[http://kho.unis.no/uaf_msp.htm Meridian Scanning Photometer plots] from [http://kho.unis.no/ UNIS/Kjell Henriksen Observatory], for context on open-closed boundary and ULF modulation of the aurora<br />
<br />
== Summary Reports for GEM workshops ==<br />
[https://drive.google.com/file/d/1QLH8FcKm3-f25aLwoetOuYJGZu5sPgN3/view?usp=sharing 2016 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1SRIv6Gn-NNnqGPHGvjvZQcdDml2GQpv_/view?usp=sharing 2017 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1clzFHWrxC9hvYf9kECJx4bPn9xn8WwsG/view?usp=sharing 2018 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1_fLwZFCLBTBHnq8HkaFPWUvaIY81E-t0/view?usp=sharing 2019 UMEA FG report]<br />
<br />
== 2016 Mini-GEM schedule ==<br />
UMEA will hold one session at the [http://www.cpe.vt.edu/gem-mini/ mini-GEM workshop]: ULF wave modeling, effects and applications updates<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 11, 2016<br />
<br />
'''Location''': Oregon Room, Holiday Inn Golden Gateway<br />
<br />
'''Schedule:'''<br />
<br />
'''First Half (12:00 – 12:45): 3 talks (~15 min each):'''<br />
<br />
*1. Mike Hartinger -- [http://gem.epss.ucla.edu/mediawikiwiki/images/7/7c/UMEAoverview_miniGEM2016.pdf Overview of UMEA current activities, discussion of future plans]<br />
<br />
*2. Lutz Rastaetter -- ULF wave modeling challenge at CCMC<br />
<br />
*3. Robert Rankin -- Modeling the global properties and ground-based signatures of ULF waves and wave-particle interactions<br />
<br />
'''Second Half (12:45 – 13:30): (5 minutes each, 1-2 slides, order of talks may change):'''<br />
<br />
*1. Xueling Shi -- SuperDARN THEMIS Mode Data Tracker & ULF Wave Detection<br />
<br />
*2. Richard Denton -- Mass density inferred from Alfven wave frequencies measured by RBSP<br />
<br />
*3. Lars Daldorff -- ULF waves, particle transport and energization in global MHD simulations with plasmasphere<br />
<br />
*4. Alexander Drozdov -- Dependence of radiation belt simulations to assumed radial diffusion rates tested for two empirical models of radial transport<br />
<br />
*5. Bob Lysak -- Quarter Wavelength Modes<br />
<br />
*6. Walk-ins<br />
<br />
== 2017 GEM meeting schedule ==<br />
UMEA will hold four sessions session at the 2017 GEM meeting<br />
<br />
'''UMEA Update and plans, general discussion of ULF wave modeling and observations''': 10:30-12:15, Monday, June 19, Port VI-VIII<br />
<br />
*1. Michael Hartinger -- [https://drive.google.com/file/d/0B57bC_V89WW6dnBCbmFFSkFURUk/view?usp=sharing UMEA update]<br />
<br />
*2. Toshi Nishimura -- PFISR measurements during the 2 May 2017 HGSO event<br />
<br />
*3. Xueling Shi -- [https://drive.google.com/file/d/0B57bC_V89WW6OUcyNGNWM0piWnc/view?usp=sharing A Survey of Ionospheric ULF Wave Signatures in SuperDARN Data: Occurrence Statistics and Driving Mechanisms]<br />
<br />
*4. Tetsuo Motoba -- Dayside Auroral Pulsations<br />
<br />
*5. Brian Kress and Rob Redmon -- Newly Available GOES 8-16 Particle and Magnetic Field Measurements<br />
<br />
*6. Dick Wolf -- Theory of magnetospheric buoyancy waves<br />
<br />
<br />
'''ULF wave interactions with the radiation belt and ring current populations''': 1:30-3:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Rualdo Soto-Chavez -- Generation of Pc5-ULF wave by the drift-mirror instability<br />
<br />
*2. Zhiyang Xia -- [https://drive.google.com/file/d/0B57bC_V89WW6Y1VQRXJKd3Qya3c/view?usp=sharing Eigenmode analysis of compressional poloidal modes in a self-consistent magnetic field]<br />
<br />
*3. Mark Engebretson -- [https://drive.google.com/file/d/0B57bC_V89WW6QlM3LU9lTVVwZ1E/view?usp=sharing Statistical study of the upper frequency cutoff of helium band EMIC waves observed by the Van Allen Probes]<br />
<br />
*4. Alexander Drozdov -- Radial diffusion and EMIC waves in the long-term simulation and in the case study<br />
<br />
*5. Seth Claudepierre -- Global MHD simulations driven by idealized Alfvenic fluctuations in the solar wind<br />
<br />
*6. Michael Hartinger -- Radiation belt response to large scale, monochromatic ULF waves: LANL-GEO observations<br />
<br />
<br />
'''ULF wave modeling, including CCMC modeling challenge, Joint with MMV''': 3:30-5:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Lutz Rastaetter -- CCMC ULF wave modeling challenge update and challenge events<br />
<br />
*2. Scot Elkington -- [https://drive.google.com/file/d/0B57bC_V89WW6WUxJcGNqbUU2bzA/view?usp=sharing ULF wave activity and diffusion coefficients during QARBM challenge events], [https://drive.google.com/file/d/0B3MAHZknMumcem40dTVyNVRFbE0/view?usp=sharing Ashar F. Ali’s write-up on Event-Specific Radial Diffusion Coefficients Derived Using RBSP EMFISIS and EFW Data]<br />
<br />
*3. Katariina Nykyri -- KHI challenge events<br />
<br />
*4. All -- Open Discussion of Challenge Events<br />
<br />
*5. Doga Ozturk -- Effects of Increased Solar Wind Dynamic Pressure on the Coupled M-I system under different IMF By<br />
<br />
*6. Kazue Takahashi -- Cavity mode Van Allen Probe observations<br />
<br />
*7. Bob Lysak -- Cavity mode models<br />
<br />
*8. Tom Elsden -- [https://drive.google.com/file/d/0B57bC_V89WW6SDNnYjdwSVM3Y3c/view?usp=sharing The Theoretical Foundation of 3D Alfven Resonances: Time Dependent Solutions]<br />
<br />
<br />
'''Magnetosphere-Ionosphere coupling processes associated with localized disturbances caused by dayside kinetic phenomena: Joint with “Dayside Kinetic Processes…” and “Testing proposed links…”''': 3:30-5:00, Tuesday, June 20, Port VI-VIII<br />
<br />
*1. Peter Chi -- Magnetospheric and ionospheric responses to a localized disturbance: The macroscopic view<br />
<br />
*2. Hui Zhang -- Magnetospheric ULF waves generated by foreshock transients<br />
<br />
*3. Hui Zhang -- Modeling challenges in simulating HFA geoeffects<br />
<br />
*4. Boyi Wang -- Optical signatures of dayside ULF waves during magnetosheath high-speed jets<br />
<br />
*5. Katariina Nykyri -- The effect of magnetosheath seed spectrum on KH evolution and associated mass transport<br />
<br />
*6. Kyle Murphy -- A statistical study of discrete ULF wave power observed by GOES<br />
<br />
== 2017 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2017 mini-GEM] workshop<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 10, 2017, Canal/50<br />
<br />
'''ULF wave modeling challenges'''<br />
Discussion of final plans for the CCMC ULF wave modeling challenge with idealized drivers, as well as open discussion of new challenges involving data-model and model-model comparisons during [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing specific events]. Please come with 1-2 slides showing examples of such comparisons, ideas for improving ULF wave models, and/or ideas for specific modeling challenges/sessions relevant to the FG science questions.<br />
<br />
*1. 12:00-12:30 Overview of CCMC ULF wave modeling challenge with idealized driving conditions, description of challenge events and targets proposed during 2017 GEM meeting and November modeling telecon (Michael Hartinger, Lutz Rastaetter)<br />
*2. 12:30-13:30 [https://drive.google.com/file/d/1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI/view?usp=sharing Open discussion of challenge events and targets (Allison Jaynes,] Robert Rankin), select challenge event to be analyzed at 2018 GEM<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 10, 2017, Canal/50<br />
<br />
'''Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
Discussion of HGSO coordination for ULF wave studies. This includes updates on the [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] conjunction event followed by an open discussion of conjunctions and datasets that are particularly useful for ULF wave studies, including upcoming RBSP-ERG-ground conjunctions. Please come with 1-2 slides showing examples of datasets and past/upcoming conjunctions ideal for addressing the FG science questions: What excites ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in MI coupling? We welcome discussion from both modelers and observers of the types of conjunctions and observations that are most needed to address these questions.<br />
<br />
*1. 13:50-14:20 Recently available datasets and conjunctions for ULF wave studies (Chih-Ping Wang, Xueling Shi, Sana Qamar, Rob Redmon)<br />
*2. 14:20-14:35 Updates on 2 May 2017 conjunction event (Toshi Nishimura, Michael Hartinger)<br />
*3. 14:35-15:20 Upcoming ARASE-RBSP conjunctions (Yoshi Miyoshi), Open Discussion of HGSO coordination for ULF wave studies (Toshi Nishimura, Kazue Takahashi)<br />
<br />
== 2018 GEM meeting schedule ==<br />
UMEA will hold [https://drive.google.com/file/d/1uh-ZOICfOBzNs9KLe3saFMnY9P-oqV9R/view?usp=sharing four sessions] at the 2018 GEM meeting. <br />
<br />
'''ULF waves during particle injections and dipolarizations, joint with Dipolarization and Substorm FG''': 10:30-12:00, Monday, June 18<br />
<br />
*1. Discussion of Session Topic<br />
<br />
*2. Bob Lysak -- [https://drive.google.com/file/d/1w8o5aGYbLsIEy2YmaoosF3WNeWTuLE59/view?usp=sharing Ionospheric Conductivity Effects on Pi2 Pulsations]<br />
<br />
*3. Mike Hartinger -- [https://drive.google.com/file/d/1tcJgspMQDkhPPvSTng4eZP7h-j7jvVR7/view?usp=sharing Pi2 waves during an extended period with stable plasmapause location and variable geomagnetic activity]<br />
<br />
*4. Toshi Nishimura -- Ionosphere observations of Pc5 ULF waves during 2018 HGSO conjunctions<br />
<br />
*5. Xueling Shi -- Long-lasting poloidal ULF waves observed by multiple satellite and SuperDARN HF radars<br />
<br />
*6. Jian Yang -- New RCM-I simulation results for buoyancy waves<br />
<br />
*7. Dick Wolf -- [https://drive.google.com/file/d/1vTkH_lmgXCcvkAYU6HgO_R5ZgIdGji3O/view?usp=sharing Theory of Buoyancy Waves] <br />
<br />
*8. Yan Song -- What Causes the Substorm Expansion Phase and Associated ULF Waves?<br />
<br />
<br />
'''Recent advances in ULF wave research''': 1:30-3:00, Monday, June 18 <br />
<br />
*1. [https://drive.google.com/file/d/1ms9kDYlBhCnxti8z9o9Lx8y0PPmkWu_-/view?usp=sharing Overview of focus group goals and recent progress]<br />
<br />
*2. Brief ULF wave poster overviews (Tuesday posters)<br />
<br />
*3. Kazue Takahashi -- Observation of nightside ULF waves by RBSP and Arase<br />
<br />
*4. Tom Elsden -- Broadband Excitation of 3D Alfven Resonances (FLRs) in an MHD Waveguide<br />
<br />
*5. Boyi Wang -- 2-D structure of foreshock driven Pc5 ULF waves observed by the THEMIS satellites and South Pole imager<br />
<br />
*6. Xiaochen Shen -- Foreshock transient-driven ultra-low frequency (ULF) waves with dawn-dusk asymmetry of wave power<br />
<br />
*7. Chih-Ping Wang -- ULF waves possibly driven by tailward propagation of foreshock perturbations<br />
<br />
*8. Allison Jaynes -- [https://drive.google.com/file/d/1EC3yPvda8fA0LUr9qTfszluNDLs6LdHT/view?usp=sharing Fast diffusion of ultra-relativistic electrons in the outer radiation belt: 17 March 2015 storm event]<br />
<br />
*9. Rualdo Soto -- The Drift-Mirror instability in Earth's inner magnetosphere<br />
<br />
*10. Martin Archer/Mike Hartinger -- [https://drive.google.com/file/d/1t4fmiiZP9wdJ-40TISEC7BuicEd64m7W/view?usp=sharing Results from Sonification and Citizen Science of Magnetospheric ULF waves]<br />
<br />
<br />
'''EMIC wave generation, propagation, and interactions''': 3:30-5:00, Monday, June 18 (discussion leaders: Alexander Drozdov and Maria Usanova)<br />
[https://drive.google.com/open?id=15rjO2UxK8sqdOfHXunDSLv5q-z51vwuD Session Summary]<br />
<br />
*1. Dedong Wang -- EMIC wave observations from Van Allen Probes and MMS<br />
<br />
*2. Mark Engebretson -- [https://drive.google.com/file/d/1jkhN45ezaeQyeAA7HmVuYOF_izjAMYra/view?usp=sharing Van Allen Probes, and ground based magnetometer observations of EMIC waves associated with a modest interplanetary shock]<br />
<br />
*3. Maria Usanova -- MMS Observations of Harmonic Electromagnetic Cyclotron Waves<br />
<br />
*4. Naritoshi Kitamura -- Direct measurements of energy transfer from hot H+ to EMIC waves by MMS<br />
<br />
*5. Bruce Fritz -- ELF Whistler Dependence on a Sunlit Ionosphere<br />
<br />
*6. Chae-Woo Jun -- EMIC waves associated with/without the injection inside/outside the plasmapause<br />
<br />
*7. Hyomin Kim -- Injection-associated EMIC waves<br />
<br />
*8. Sebastian Cervantes -- EMIC wave parameterization in radiation belt reanalysis<br />
<br />
*9. Maria Usanova -- Long-term correlation of EMIC wave activity and radiation belt flux variations<br />
<br />
*10. Alexander Drozdov -- The effects due to the EMIC waves in the VERB code modeling<br />
<br />
<br />
'''ULF wave modeling challenge, joint with MMV FG''': 3:30-5:00, Wednesday, June 20<br />
<br />
*1. Brief ULF wave poster overviews (Thursday posters)<br />
<br />
*2. Mike Hartinger: [https://drive.google.com/file/d/1g2cL_qaDbASLH5DoJ_auJKQCbG96sdQn/view?usp=sharing ULF wave modeling challenge event overview, discussion of challenge targets (continuing during session)]<br />
<br />
*3. Mariko Teramoto: ARASE ULF wave observations during challenge event<br />
<br />
*4. Sam Califf: [https://drive.google.com/file/d/1CvbVG2Dp8e6RokJE0501L8-LU9ipdUFT/view?usp=sharing GOES-14 and 16 observations during the ULF wave challenge event, Data Discussion]<br />
<br />
*5. Toshi Nishimura: [https://drive.google.com/file/d/1cavbwNU4LoAigIsGvGF_UtiTaM97dFtP/view?usp=sharing PFISR measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*6. Dogacan Su Ozturk: [https://drive.google.com/file/d/1MmP3D_4eeJbEVJzUyx8fAtFsG3b0grzy/view?usp=sharing The modeling study of the 27 March 2017 Event] <br />
<br />
*7. Xiaochen Shen: GEM Challenge Event: ULF wave-related electron and proton precipitation/negative dynamic pressure pulse driven EMIC wave<br />
<br />
*8. Tetsuo Motoba: [https://drive.google.com/file/d/1544ngYBXat-zUC1gZqo0lMVUZtYqxUqH/view?usp=sharing Auroral measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*9. Others discuss when their figures/summary plots in event overview pdf are presented…<br />
<br />
== 2018 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2018 mini-GEM] workshop<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF modulation of the aurora, Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
This session focuses on understanding a variety of mechanisms responsible for ULF modulations of the aurora. Eric Donovan will give a 30 minute invited presentation, with the rest of the session open for presentations and discussion on this topic. We welcome discussion of ULF aurora generation mechanisms and the types of conjunctions, observations, and models needed to understand the zoo of ULF auroral modulations. We also welcome discussion of upcoming observation campaigns/satellite conjunctions that would be particularly useful for ULF wave studies.<br />
<br />
*1. Eric Donovan<br />
*2. Tetsuo Motoba<br />
*3. Slava Pilipenko<br />
*4. Boyi Wang / Toshi Nishimura<br />
*5. Open discussion<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF wave modeling challenge and research highlights'''<br />
The first part of the session is for updates on the idealized ULF wave modeling challenge and potential 2019 GEM sessions. The next part of the session is for observation/model presentations relevant to the 27-28 May 2017 ULF wave challenge event and final selection of the modeling challenge targets – all types of models and observations welcome. The last part of the session will be open for 1 slide ULF wave modeling and observation research highlights. <br />
<br />
*1. [https://drive.google.com/file/d/1vqxxn3gYXfzDKABe9yRwMgR8vbKRua_j/view?usp=sharing 2019 GEM session ideas] (Mike Hartinger)<br />
*2. Idealized Modeling Challenge (Lutz Rastaetter)<br />
*3. ULF wave modeling challenge event updates: Rob Redmon/Sam Califf/Mike Hartinger (GOES magnetometer observations), Yoshi Miyoshi (Arase magnetic field observations), [https://drive.google.com/file/d/1B6DGHvAzUhBG79eUJWPsUD2BSjGhQrrw/view?usp=sharing Hyomin Kim (wave-particle interaction)], [https://drive.google.com/file/d/180iaBGrbCPf1rYy6uVZn8OsLTOFREqsD/view?usp=sharing Dong Lin (LFM simulations)]<br />
*4. General ULF wave modeling: [https://drive.google.com/file/d/10gUKitjDPnbV_g9r9CAHDFeE365wUQQd/view?usp=sharing Yaireska Collado-Vega (vortex identification/surface waves)], [https://drive.google.com/file/d/1kkGlYKoYHr7XZf5nT3kaXITUD3tpNynJ/view?usp=sharing Alex Degeling (ULF wave radiation belt interactions)] <br />
*5. Research highlights (1-slide): Rualdo Soto (Van Allen Probes and Cluster satellites’ observations of Pc 5 (mHz) magnetic pulsations), [https://drive.google.com/file/d/1V_Joz3psBQbCBoVKRYaOKdKIEoZ72WgQ/view?usp=sharing Xueling Shi (SuperDARN ULF waves)], Martin Archer (magnetopause surface eigenmodes), [https://drive.google.com/file/d/1Mmi3VfERKswG3dpYidVUgOQra2UG-9s2/view?usp=sharing Martin Archer (sonification)]<br />
<br />
== 2019 GEM meeting schedule ==<br />
<br />
UMEA will hold [https://drive.google.com/file/d/1KmH9XqxrisGH_g4s0ny7QDkutmv7tKlr/view?usp=sharing six sessions] at the 2019 GEM meeting, four joint with other focus groups. <br />
<br />
'''Recent advances in ULF wave research: Modeling''': 3:30-5:00, Monday, June 24 New Mexico room, joint with MMV. <br />
Discussion of advances in ULF wave research, with focus on modeling and modeling challenges (e.g., boundary conditions, grid resolution, missing physics). This includes models of the effects of ULF waves on inner magnetosphere dynamics and wave-particle interactions. We particularly encourage presentations focused on the ULF wave modeling challenge, including data-model comparisons for the 27-28 May 2017 challenge event.<br />
*Mike Hartinger, [https://drive.google.com/open?id=1Drkq9epsQWY4AjpV1EF-8Ci_kaKyN2jk FG updates]<br />
*Jesper Gjerloev, SuperMAG ULF updates<br />
*Tetsuo Motoba, High-time resolution SuperMAG ULF data products<br />
*Lutz Rastaetter, ULF wave modeling challenge<br />
*Maulik Patel, MHD test particle simulations of the 16 July 2017 shock compression of the dayside magnetopause <br />
*Bob McPherron, Pi 2 pulsations during the storm of May 27-29 2017, The Statistics of Pi 2 Pulsation Occurrence during a Major Magnetic Storm<br />
*Dong Lin, LFM simulations of surface waves during challenge event<br />
<br />
'''The ULF response to dayside transients with different temporal/spatial scales''': 10:30-12:00, Wednesday, June 26 Santa Fe room, discussion leader: Tom Elsden, joint with Dayside Kinetics and IHMIC. <br />
Dayside transient phenomena associated with kinetic scale processes cause a variety of ULF wave behaviour in the magnetosphere and further, contribute to significant magnetospheric asymmetries. The aim of this session is to bring together the expertise of the three focus groups listed above, to answer outstanding questions at the overlap of these disciplines. It is hoped that such a discussion should prove fruitful enough to generate a JGR commentary paper in this area. With this in mind, speakers in this session are encouraged to give their views as to the current state of the subject area, and how outstanding problems may be addressed in the future.<br />
* Tom Elsden - Session introduction and goals<br />
* Ferdinand Plaschke (invited) - An overview of dayside transients causing ULF waves<br />
* Tom Elsden - 3D ULF wave modeling with MHD<br />
* Boyi Wang - The role of magnetosheath high-speed jets in triggering magnetospheric Pc5 ULF waves<br />
* Bob Lysak - Ionospheric asymmetries and quarter-wave modes<br />
* Xueling Shi - Conjugate Observations of ULF Waves during an Extended Period of Radial IMF<br />
* Michael Hartinger - Localized magnetopause surface wave activity and [https://drive.google.com/open?id=1d8lDB-FPGa6VErL37aZz3xZSgpNvxbk0 modeling challenges]<br />
* Discussion<br />
<br />
'''ULF wave modeling challenges associated with Magnetosphere-Ionosphere-Thermosphere Coupling''': 3:30-5:00, Wednesday, June 26 Lumpkins Ballroon South, joint with IEMIT, discussion leader Doga Ozturk. <br />
ULF waves play important roles in M-I-T coupling, driving current systems that can lead to I-T system heating and geomagnetically induced currents. This session aims to bring together researchers from the ULF wave and M-I-T coupling research communities to discuss challenges associated with realistically modeling M-I-T coupling processes associated with these waves. The session will begin with a discussion of the ULF wave challenge event; comparisons between modeled / observed (PFISR) conductivities and modeled/observed ULF wave properties will be presented, and the community will be invited to discuss explanations for model/observation differences. The rest of the session is open for short presentations on ULF wave modeling challenges related to M-I-T coupling, including topics such as specifying conductivity and effect of conductivity on wave properties, effect of ionospheric boundary conditions in global simulations, boundary conditions and feedback between magnetosphere and ionosphere, capturing role of waves in ionospheric-thermospheric heating.<br />
# (Invited) Boyi Wang: Ionospheric modulation by Pc5 ULF waves and wave structure detected by PFISR<br />
# (Invited) Xiaojia Zhang / Anton Artemyev: ULF modulation of VLF waves and precipitation<br />
# Doga Ozturk: Update from GEM/CEDAR joint session, [https://drive.google.com/open?id=1WsSf4PFHiBo_iZ3za-bhUWKHFJd4MNQX ULF Wave activity and Meso-Scale electric field variability at high-latitude I-T system]<br />
# Anatoly Streltsov: ULF waves generated by the MI interactions near the plasmapause<br />
# Mergen Alimaganbetov: ULF waves observed in space and on the ground at high and low latitudes<br />
# Mark Engebretson: [https://drive.google.com/open?id=16WbDl3rnuehoifUqFj4oMw_Tn5WhEFlU Multi-Instrument Observations of Nighttime Impulsive Magnetic Events]<br />
# Bob Lysak: Modeling ionospheric conductance and ground magnetic fields<br />
# Yan Song: ULF wave, M-I coupling and Auroral formation.<br />
<br />
[https://drive.google.com/open?id=1wGpZPk086Zs54uWGtYiRjByPmVCFnsSv '''EMIC waves''']: 10:30-12:00, Thursday, June 27 New Mexico room, joint with Radiation Belt. <br />
The generation mechanisms of Electromagnetic Ion Cyclotron (EMIC) waves, their effects on energetic electrons and ions, and their propagation through the magnetosphere-ionosphere system are challenging topics that involve multiple GEM research areas. Despite several years of observations and improved global wave statistics, there are many unresolved questions that limit further investigation, modeling and prediction of dynamical processes in the inner magnetosphere involving EMIC waves. Hence, we invite short presentations that discuss recent findings in different areas of EMIC wave research and identify observations/models most needed to address unresolved questions.<br />
*Robert Allen, Outer magnetospheric EMIC wave source regions characterized by Cluster<br />
*Sarah Vines, EMIC waves in the outer magnetosphere: Observations of an off-equator source region<br />
*Justin Lee, [https://drive.google.com/open?id=1xlJfppvWgOC_JHy6QgPpptcI3GjkYuLC EMIC wave observations by MMS] <br />
*Chao Yue, The relationship between EMIC wave properties and proton distributions based on Van Allen Probes observations<br />
*Kristine Sigsbee, Simultaneous EMIC Wave Observations During a Van Allen Probes Conjunction<br />
*Hyomin Kim, [https://drive.google.com/open?id=1UmmYHxyIcH2FfQmRnffGNnCUNjH8S5qQ Observations of Particle Loss due to Injection-Associated EMIC Waves]<br />
*Yuri Shprits, Dips in PSD and how they are related to EMIC wave scattering<br />
*Richard Denton, Electromagnetic ion cyclotron waves in the dipole magnetosphere and pitch angle scattering of sub-MeV relativistic electrons by those waves<br />
*Qianli Ma, Pitch angle scattering of radiation belt electrons due to statistical EMIC wave spectra <br />
<br />
'''Recent advances in ULF wave research: Observations and HGSO coordination for ULF wave studies''': 1:30-3:00, Thursday, June 27 New Mexico room. <br />
Discussion of recent advances in ULF wave research, with focus on observations and a general discussion of Heliophysics/Geospace System Observatory coordination for ULF wave studies. We particularly encourage presentations describing (1) past or upcoming satellite conjunctions, (2) new data analysis tools, and/or (3) instrumentation/operation modes of interest to the ULF wave research community.<br />
*Seth Claudepierre/Matina Gkioulidou (invited), [https://drive.google.com/open?id=1bjENFjvkWSjLYA_EfFuTxhCyKtVlk7c1 Van Allen Probes: End of Mission and ULF wave studies]<br />
*Tetsuo Motoba, SuperMAG ULF wave tools<br />
*Sarah Vines, Determining EMIC wave vector properties through multi-point measurements: The wave curl analysis<br />
*Aaron Breneman, [https://drive.google.com/open?id=1NHlf9I_VV6vkx9id_NL4gE6YhEsSRxkG BARREL precipitation during solar wind driven ULF wave events] <br />
*Anatoly Streltsov, Effect of the Hall conductivity on generation of ULF waves<br />
*Mohammad Barani, [https://drive.google.com/open?id=1sCMVi0pbWsggpUUnotdl-4LO_hfGGFEc Estimating the Azimuthal Mode Structure of ULF Waves Based on Multiple GOES Satellite Observations]<br />
*Kazue Takahashi, L versus time structures of ground magnetic pulsations<br />
*Chih-Ping Wang, Earthward propagation of Pi2 waves<br />
<br />
'''ULF waves driven by wave-particle interactions and instabilities''': 3:30-5:00, Thursday, June 27 Lumpkins Ballroon South, discussion leaders: Xueling Shi and Hyomin Kim. <br />
Many ULF wave modes are closely related to instabilities and wave-particle interactions inside the magnetosphere: poloidal mode waves associated with particle injections, mirror/drift-mirror modes, buoyancy waves… These waves are often discussed in different contexts and in different GEM sessions. In addition, there have been relatively few studies of modeling internally generated ULF waves. The purpose of this session is to bring together modelers and observers to discuss the underlying processes that drive/damp these waves, their impact(s) on the M-I system (ring current, radiation belt, ionosphere,…), and the models/observations needed to better understand wave dynamics.<br />
*Xuzhi Zhou (invited), Acceleration of relativistic electrons by global-scale ULF waves<br />
*Tomotsugu Yamakawa (invited), [https://drive.google.com/open?id=1PEsq7oWVeXwwXn3JvE5ZvWQIIjfXwKRB Simulation of the excitation of storm-time Pc5 ULF waves by ring current ions based on the drift-kinetic model]<br />
*Frank Toffoletto, Normal Mode Analysis of Buoyancy Waves <br />
*Peter Chi, Observations of High-m Poloidal Waves along Magnetospheric Field Lines<br />
*Mike Hartinger, [https://drive.google.com/open?id=17do2Jxy01SJPmOloBxzTPID9ZzqaPGZI Observations of wave-particle interactions using MagEIS ultra-high resolution energy channels]<br />
*Jiang Liu, Ultralow Frequency Waves Deep Inside the Inner Magnetosphere Driven by Dipolarizing Flux Bundles, and their interaction with electrons<br />
*Kyle Murphy, TBD<br />
<br />
== 2019 Mini-GEM schedule ==<br />
UMEA will hold one session at the [https://gemworkshop.org/ 2019 mini-GEM] workshop<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 8, 2019, Nevada Room<br />
<br />
'''ULF wave modeling challenge event, HGSO coordination, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge and potential 2020 GEM sessions. The next part of the session is open for ULF wave research presentations discussing the ULF wave modeling challenge event or current/upcoming observation campaigns that are particularly useful for ULF wave studies. The last part of the session will be open for 1 slide ULF wave research highlights.<br />
<br />
*Mike Hartinger, [https://drive.google.com/open?id=1eQQc07g7nCTEGNwaTGesQx4ymIU6m815 UMEA updates and proposed sessions for 2020 GEM workshop]<br />
*Dong Lin, [https://drive.google.com/open?id=1SqiD1u69eyKNzLyrtvTWbMK05L5OrkrO LFM Simulations of ULF wave modeling challenge event]<br />
*Mohammad Barani, [https://drive.google.com/open?id=1fQAossqjQ-aBuGIBhDIW6I0_WEtHdQsF High-fidelity ULF wave azimuthal mode number structure estimation using MMS magnetometer observations], [https://www.youtube.com/watch?reload=9&v=W5Vya8pCjNE&t=1s link to related presentation on YouTube]<br />
*Chih-Ping Wang, [https://drive.google.com/open?id=19ugyLwyIp4YRuLpDuzT330IdbbFppQcr Inward propagation of Pi2 wave from plasma sheet to inner magnetosphere: THEMIS-GOES conjunctions]<br />
*Walk-ins<br />
<br />
== 2020 VGEM schedule ==<br />
UMEA will hold two sessions at the [https://gemworkshop.org/ 2020 Virtual GEM] workshop<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave modeling challenge event'''<br />
(Hosted by Xueling Shi)<br />
The first part of the session is for updates on research related to the challenge event (27-29 May 2017 storm): All modeling and observation talks welcome as long as they're related to this event. The last part of the session will be for short research highlights and oral summaries of posters.<br />
<br />
*Mike Hartinger (10 minutes), [https://drive.google.com/file/d/1Z5-g7-f-iKfpuWD03WVkA3Q2Rb9mbQfe/view?usp=sharing 2020 UMEA updates and overview of challenge event] <br />
*Simone Di Matteo (15 minutes), [https://drive.google.com/file/d/1acsSyIszg95muYurOkn0RmW0btblS3Ja/view?usp=sharing On some features characterizing the plasmasphere–magnetosphere–ionosphere system during the geomagnetic storm of 27 May 2017] <br />
*Bob McPherron (15 minutes), [https://drive.google.com/file/d/1pnqs49KamZF2BLgMdaoOroktmkBNnj1c/view?usp=sharing ULF wave activity at synchronous orbit during the May 27-29, 2017 Magnetic storm]<br />
*Boyi Wang (15 minutes), Ionospheric modulation by storm-time Pc5 ULF waves and wave structure detected by PFISR-THEMIS conjunctions<br />
*Lutz Rastaetter (15 minutes), [https://drive.google.com/file/d/1H9nTOrpQHX0NEau1eSktWjWM0KYbyfnM/view?usp=sharing Idealized ULF wave modeling challenge: high-resolution runs] <br />
*Mark Engebretson (5 minutes), [https://drive.google.com/file/d/1kvWyYe52OkTB7uUmKWRDSO305Jina-Yy/view?usp=sharing Nighttime magnetic perturbation events observed in Arctic Canada: Superposed epoch analysis]<br />
*Jinxing Li (5 minutes), Electron microinjections in association with compressional ULF waves: MMS observations<br />
*Xiaojia Zhang (5 minutes), [https://drive.google.com/file/d/1fKwf0t1ohDZIxF5NPtsgGKNP0cBEqECn/view?usp=sharing Spreading of Magnetopause-Generated Ultra-Low-Frequency Perturbations and the Associated Whistler Modulation] <br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave research highlights'''<br />
These will be contributed talks with priority given to graduate students and postdocs. The rationale is that virtual GEM will not provide the same type of networking opportunities as in-person GEM, and we'd like to balance this somewhat by giving more opportunities to students/postdocs to present their work on ULF waves.<br />
<br />
All presentations are 10 minutes including discussion:<br />
*Rachel Rice, Characteristics of Kelvin-Helmholtz Waves as Observed by MMS<br />
*Dong Lin, Idealized ULF wave simulations with GAMERA-RCM model<br />
*Boyi Wang, The interaction between ions and the ULF waves driven by a foreshock transient<br />
*Jayashree Bulusu, [https://drive.google.com/file/d/1YyRAo0I7Cf4-buxhTBXLxYaTWw7GX6SZ/view?usp=sharing Investigation of Pi2s during super quiet conditions from low and mid-latitudes]<br />
*Changzhi Zhai, High-m Poloidal ULF Wave Signatures in GPS TEC Data<br />
*Simone Di Matteo, [https://drive.google.com/file/d/1yYaidiu7O4a0Z8PeQXELiyatB03hJQyX/view?usp=sharing Power Spectral Density Background Estimate and Signal Detection via the Multitaper Method] <br />
*Yixin Hao, [https://drive.google.com/file/d/1iIf5QpLE9t7IThiIPNwhCoRHrbFDoR8R/view?usp=sharing Simultaneous observations of localized and global drift resonance]<br />
*Mohammad Barani, [https://drive.google.com/file/d/1it2y8JXJzrbjmt56MWia7ffbei63gIwC/view?usp=sharing Effects of realistic mode number structure on radial diffusion estimation]<br />
<br />
== 2021 Virtual Mini-GEM schedule ==<br />
UMEA will hold one session at the Virtual Mini-GEM Worskhop.<br />
<br />
'''Time''': 12:00-14:00 US Eastern Time, Friday, January 22, 2021<br />
<br />
'''ULF wave modeling challenge event, planning for 2021 GEM meeting, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge event, including an invited talk by Naoko Takahashi. The next part of the session will be for open discussion on potential 2021 GEM sessions. The final part of the session will be open for ULF wave research highlights. <br />
*Mike Hartinger, Brief Introduction to Challenge event<br />
*Naoko Takahashi, Relative contribution of ULF waves and whistler-mode chorus to the radiation belt variation during May 2017 storm<br />
*Ian Kelley, GPS TEC response during the ULF wave challenge event<br />
*Mike Hartinger, ULF wave geoelectric fields during the challenge event<br />
*All, Planning for 2021 GEM sessions<br />
*Bob Lysak, FLRs in Jupiter's magnetosphere<br />
*Toshi Nishimura, Upcoming conjunctions for ULF wave studies<br />
*Toshi Nishimura, PFISR and all-sky imager observations of Pc5 ULF waves during substorms<br />
*Francesco Lena, Detection of Hertz Frequency Multiharmonic Field Line Resonances at Low-L (L=1.1–1.5) During Van Allen Probe Perigee Passes<br />
<br />
== 2021 VGEM schedule ==<br />
UMEA will lead four sessions at the [https://gemworkshop.org/ 2021 Virtual GEM] workshop.<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''Recent Advances in ULF Wave Research'''<br />
This session will start with a short update on the ULF wave modeling challenge. The rest of the session will be for recent advances in ULF wave research, with priority given to presentations (1) with data or modeling results related to the challenge event (27-28 May 2017) or (2) discussions of ULF wave data-model comparisons.<br />
<br />
*Schedule TBD<br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''The Future of ULF Wave Research'''<br />
This session will begin with a review of the ULF wave FG’s original goals, research topics covered in the last 5 years and related activities, and unresolved questions and research objectives. The remainder of the session is open for 1-2 slide presentations on major unresolved questions in ULF wave research. We particularly encourage presentations (1) exploring topics that could be addressed by current/future GEM FG or decadal survey white paper, (2) highlighting major questions or obstacles preventing progress in ULF wave research (e.g., missing data in a critical region, missing theory/modeling component), (3) discuss how ULF wave researchers can best take advantage of future satellite missions, ground-based infrastructure, computing advances/big data/AI, and modeling/theory advances. <br />
<br />
*Schedule TBD<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Tuesday, July 27, 2021<br />
<br />
'''ULF Wave M-I Coupling Processes'''<br />
This session is joint with the IEMIT FG. The session will begin with a review of the role of ULF waves on M-I coupling. The remainder of the session is open for 5-min presentations on ULF wave topics related to M-I coupling, e.g., auroral acceleration, particle precipitation, geomagnetic perturbations, GICs, etc. More questions and discussions will be left to the end.<br />
<br />
*Schedule TBD<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Friday, July 30, 2021<br />
<br />
'''Coupling Between ULF Waves and Cold Plasma'''<br />
This session is joint with the Cold Plasma FG. The session will begin with a review of mechanisms that couple cold plasma populations to ULF waves by Richard Denton. The remainder of the session is for contributed presentations (likely 2-3 slides) describing (1) recent advances in our understanding of cold plasma interactions with ULF waves and (2) outstanding questions that could be discussed in future cold plasma FG sessions.<br />
<br />
*Schedule TBD</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=FG:_ULF_Wave_Modeling,_Effects,_and_Applications&diff=5313FG: ULF Wave Modeling, Effects, and Applications2021-07-03T16:52:35Z<p>Mdhartin: /* 2021 VGEM schedule */</p>
<hr />
<div>''Focus Group Leaders:''<br />
* Michael Hartinger, Space Science Institute (mhartinger@spacescience.org)<br />
* Kazue Takahashi, Applied Physics Laboratory<br />
* Alexander Drozdov, UCLA<br />
* Maria Usanova, University of Colorado<br />
* Brian Kress, University of Colorado and NOAA-NCEI<br />
* Xueling Shi, Virginia Tech<br />
<br />
Focus Group term: 2016-2021<br />
<br />
Join the discussion on [https://gemworkshop.slack.com/archives/C016U8PA7TJ Slack], including discussion related to the 2020 GEM and 2021 miniGEM meetings.<br />
<br />
== Science Questions ==<br />
Our group aims to address the following broad science questions: What mechanisms excite ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in Magnetosphere-Ionosphere coupling?<br />
<br />
== Focus Group Proposal ==<br />
[http://gem.epss.ucla.edu/mediawiki/FGproposals/Hartinger-UMEA.pdf ULF Wave Modeling, Effects, and Applications (UMEA)] (December 2015)<br />
<br />
== ULF wave modeling challenge ==<br />
<br />
One part of the ULF wave modeling challenge involves running several global MHD simulation codes with identical, idealized solar wind driving conditions (sinusoidal density variation), then comparing the resulting global ULF wave properties and discussing differences in the context of differing boundary conditions, grids, etc. More details can be found here: [http://ccmc.gsfc.nasa.gov/challenges/ULF/ ULF wave modeling challenge at CCMC]<br />
<br />
Another part of the ULF wave modeling challenge involves data-model comparisons during specific events. At the 2017 GEM and mini-GEM meetings several [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing challenge events] were proposed, including two [https://drive.google.com/open?id=1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI 2017 events].<br />
<br />
We have selected the [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing 27-28 May 2017 storm event] for the ULF wave modeling challenge due to favorable solar wind coverage and availability of numerous satellites (MMS, ARASE, THEMIS, RBSP, Cluster, GOES, ...) and ground-based observations for global context and multi-point wave observations. We will be continuously updating this [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing overview presentation] with observation and modeling results. Model output and observations for the challenge event - including global densities from the NURD model - can be obtained [https://drive.google.com/drive/folders/1Bk9vJtbEHd-vSuYqr3UG9NGCqaBn69hw?usp=sharing here]. If you would like to add additional observations/model output to the google drive or overview pdf, please contact the co-chairs.<br />
<br />
CCMC has run several global MHD simulation codes using the driving conditions of the ULF wave challenge event. At the 2019 GEM meeting and future GEM/mini-GEM meetings, we plan data-model comparisons to identify where model/data don't agree and discuss these differences in the context of incorrect boundary conditions (e.g., compare model ionosphere to local PFISR-derived conductivities), missing physics, numerical dissipation, etc. Please contact CCMC/Lutz Rastaetter and model developers before using this simulation output in publications:<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_SWMF_040319_1 Space Weather Modeling Framework simulation], IMF Bx=0 (other parameters as in event). Full 2-day event, 3D output every 15s, virtual ground magnetometer. If you haven't used CCMC visualization tools before, be aware that you shouldn’t submit multiple visualization requests at the same time, as this could crash CCMC server for these large 3D files. Instead, request a batch process or wait for the first visualization request to complete. The easiest/fastest visualization is to follow the link above and scroll down until you see the virtual ground magnetometer and satellites list. Click on the magnetometer/satellite of interest, then select which parameter(s) to display/download. <br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_1 OpenGGCM run 1] – IMF Bx = -7 nT. Smaller time range available on 28 May 0400-1000, only virtual ground magnetometer from POKR/CMO available now. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_1 Full results including virtual satellite.]<br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_2 Open GGCM run 2] – IMF Bx = 0 nT (as in SWMF simulation). Same format as other OpenGGCM simulation. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_2 Full results including virtual satellite.]<br />
<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_LFM_051519_2 LFM simulation]<br />
<br />
== ULF wave HGSO event coordination ==<br />
Our group is helping coordinate analysis of conjunction events for ULF wave studies, including requesting instrument operation modes favorable for ULF wave analysis.<br />
<br />
The [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] 0400-0800 UT conjunction event includes several satellites (THEMIS, Cluster, Van Allen Probes, GOES, Geotail, FIREBIRD, METOP, POES, DMSP) in the pre-midnight sector during a conjunction with the Poker Flat Incoherent Scatter Radar and several SuperDARN radars. PFISR was operating throughout the conjunction, several SuperDARN radars were in high resolution sampling modes, and several satellites were operating in fast survey/burst mode. The conjunction is favorable for modeling and observation studies of magnetosphere-ionosphere coupling via ULF waves, wave-particle interactions, global ULF wave properties, and many other topics. [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing This pdf] summarizes preliminary results<br />
<br />
Several web-based tools are available for identifying future conjunctions, including [https://ergsc.isee.nagoya-u.ac.jp/analysis/index.shtml.en upcoming conjunctions between ARASE and Van Allen Probes/ground] and conjunctions between [https://swarm-aurora.com/conjunctionFinder/ SWARM/all-sky cameras].<br />
<br />
'''There are also many specialized, web-based tools for ULF wave analysis (please contact FG co-chairs to add to this list):'''<br />
<br />
*SuperMAG ground-based magnetometer [http://supermag.jhuapl.edu/rBrowse/?start=2001-01-30T05%3A00%3A00.000Z&step=14400 global ULF wave plots]<br />
<br />
*CARISMA ground-based magnetometer [http://www.carisma.ca/carisma-data/fgm-pc1-power-spectra Pc1 power spectra] and [http://www.carisma.ca/carisma-data/fgm-pc5-power-spectra Pc5 power spectra]<br />
<br />
*Augsburg College/UNH Arctic and Antarctic [http://space.augsburg.edu/searchcoil/index.html search coil magnetometer survey plots] <br />
<br />
*Augsburg College (hosted by ViRBO) [http://virbo.org/Augsburg/ULF ULF wave index]<br />
<br />
*[http://vt.superdarn.org/tiki-index.php?page=DaViT+DynFFT SuperDARN wave analysis] and [http://vt.superdarn.org/tiki-index.php?page=Data+Inventory identification of high time-resolution SuperDARN beams]<br />
<br />
*THEMIS satellite fluxgate magnetometer [http://themis.ssl.berkeley.edu/summary.php?year=2014&month=05&day=11&hour=0024&sumType=thmfgmdyn&type=themislinfgl wave survey plots]<br />
<br />
*National Institute of Polar Research inter-hemispheric comparisons of Syowa/Iceland [http://iugonet0.nipr.ac.jp/web/induction/ induction magnetometer spectra]<br />
<br />
*[http://mist.nianet.org/Satellite_Conjunctions/ Inter-hemispheric comparisons] during satellite conjunctions with Arctic(DTU Space)/Antarctic(Virginia Tech) magnetometers<br />
<br />
*[http://kho.unis.no/uaf_msp.htm Meridian Scanning Photometer plots] from [http://kho.unis.no/ UNIS/Kjell Henriksen Observatory], for context on open-closed boundary and ULF modulation of the aurora<br />
<br />
== Summary Reports for GEM workshops ==<br />
[https://drive.google.com/file/d/1QLH8FcKm3-f25aLwoetOuYJGZu5sPgN3/view?usp=sharing 2016 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1SRIv6Gn-NNnqGPHGvjvZQcdDml2GQpv_/view?usp=sharing 2017 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1clzFHWrxC9hvYf9kECJx4bPn9xn8WwsG/view?usp=sharing 2018 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1_fLwZFCLBTBHnq8HkaFPWUvaIY81E-t0/view?usp=sharing 2019 UMEA FG report]<br />
<br />
== 2016 Mini-GEM schedule ==<br />
UMEA will hold one session at the [http://www.cpe.vt.edu/gem-mini/ mini-GEM workshop]: ULF wave modeling, effects and applications updates<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 11, 2016<br />
<br />
'''Location''': Oregon Room, Holiday Inn Golden Gateway<br />
<br />
'''Schedule:'''<br />
<br />
'''First Half (12:00 – 12:45): 3 talks (~15 min each):'''<br />
<br />
*1. Mike Hartinger -- [http://gem.epss.ucla.edu/mediawikiwiki/images/7/7c/UMEAoverview_miniGEM2016.pdf Overview of UMEA current activities, discussion of future plans]<br />
<br />
*2. Lutz Rastaetter -- ULF wave modeling challenge at CCMC<br />
<br />
*3. Robert Rankin -- Modeling the global properties and ground-based signatures of ULF waves and wave-particle interactions<br />
<br />
'''Second Half (12:45 – 13:30): (5 minutes each, 1-2 slides, order of talks may change):'''<br />
<br />
*1. Xueling Shi -- SuperDARN THEMIS Mode Data Tracker & ULF Wave Detection<br />
<br />
*2. Richard Denton -- Mass density inferred from Alfven wave frequencies measured by RBSP<br />
<br />
*3. Lars Daldorff -- ULF waves, particle transport and energization in global MHD simulations with plasmasphere<br />
<br />
*4. Alexander Drozdov -- Dependence of radiation belt simulations to assumed radial diffusion rates tested for two empirical models of radial transport<br />
<br />
*5. Bob Lysak -- Quarter Wavelength Modes<br />
<br />
*6. Walk-ins<br />
<br />
== 2017 GEM meeting schedule ==<br />
UMEA will hold four sessions session at the 2017 GEM meeting<br />
<br />
'''UMEA Update and plans, general discussion of ULF wave modeling and observations''': 10:30-12:15, Monday, June 19, Port VI-VIII<br />
<br />
*1. Michael Hartinger -- [https://drive.google.com/file/d/0B57bC_V89WW6dnBCbmFFSkFURUk/view?usp=sharing UMEA update]<br />
<br />
*2. Toshi Nishimura -- PFISR measurements during the 2 May 2017 HGSO event<br />
<br />
*3. Xueling Shi -- [https://drive.google.com/file/d/0B57bC_V89WW6OUcyNGNWM0piWnc/view?usp=sharing A Survey of Ionospheric ULF Wave Signatures in SuperDARN Data: Occurrence Statistics and Driving Mechanisms]<br />
<br />
*4. Tetsuo Motoba -- Dayside Auroral Pulsations<br />
<br />
*5. Brian Kress and Rob Redmon -- Newly Available GOES 8-16 Particle and Magnetic Field Measurements<br />
<br />
*6. Dick Wolf -- Theory of magnetospheric buoyancy waves<br />
<br />
<br />
'''ULF wave interactions with the radiation belt and ring current populations''': 1:30-3:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Rualdo Soto-Chavez -- Generation of Pc5-ULF wave by the drift-mirror instability<br />
<br />
*2. Zhiyang Xia -- [https://drive.google.com/file/d/0B57bC_V89WW6Y1VQRXJKd3Qya3c/view?usp=sharing Eigenmode analysis of compressional poloidal modes in a self-consistent magnetic field]<br />
<br />
*3. Mark Engebretson -- [https://drive.google.com/file/d/0B57bC_V89WW6QlM3LU9lTVVwZ1E/view?usp=sharing Statistical study of the upper frequency cutoff of helium band EMIC waves observed by the Van Allen Probes]<br />
<br />
*4. Alexander Drozdov -- Radial diffusion and EMIC waves in the long-term simulation and in the case study<br />
<br />
*5. Seth Claudepierre -- Global MHD simulations driven by idealized Alfvenic fluctuations in the solar wind<br />
<br />
*6. Michael Hartinger -- Radiation belt response to large scale, monochromatic ULF waves: LANL-GEO observations<br />
<br />
<br />
'''ULF wave modeling, including CCMC modeling challenge, Joint with MMV''': 3:30-5:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Lutz Rastaetter -- CCMC ULF wave modeling challenge update and challenge events<br />
<br />
*2. Scot Elkington -- [https://drive.google.com/file/d/0B57bC_V89WW6WUxJcGNqbUU2bzA/view?usp=sharing ULF wave activity and diffusion coefficients during QARBM challenge events], [https://drive.google.com/file/d/0B3MAHZknMumcem40dTVyNVRFbE0/view?usp=sharing Ashar F. Ali’s write-up on Event-Specific Radial Diffusion Coefficients Derived Using RBSP EMFISIS and EFW Data]<br />
<br />
*3. Katariina Nykyri -- KHI challenge events<br />
<br />
*4. All -- Open Discussion of Challenge Events<br />
<br />
*5. Doga Ozturk -- Effects of Increased Solar Wind Dynamic Pressure on the Coupled M-I system under different IMF By<br />
<br />
*6. Kazue Takahashi -- Cavity mode Van Allen Probe observations<br />
<br />
*7. Bob Lysak -- Cavity mode models<br />
<br />
*8. Tom Elsden -- [https://drive.google.com/file/d/0B57bC_V89WW6SDNnYjdwSVM3Y3c/view?usp=sharing The Theoretical Foundation of 3D Alfven Resonances: Time Dependent Solutions]<br />
<br />
<br />
'''Magnetosphere-Ionosphere coupling processes associated with localized disturbances caused by dayside kinetic phenomena: Joint with “Dayside Kinetic Processes…” and “Testing proposed links…”''': 3:30-5:00, Tuesday, June 20, Port VI-VIII<br />
<br />
*1. Peter Chi -- Magnetospheric and ionospheric responses to a localized disturbance: The macroscopic view<br />
<br />
*2. Hui Zhang -- Magnetospheric ULF waves generated by foreshock transients<br />
<br />
*3. Hui Zhang -- Modeling challenges in simulating HFA geoeffects<br />
<br />
*4. Boyi Wang -- Optical signatures of dayside ULF waves during magnetosheath high-speed jets<br />
<br />
*5. Katariina Nykyri -- The effect of magnetosheath seed spectrum on KH evolution and associated mass transport<br />
<br />
*6. Kyle Murphy -- A statistical study of discrete ULF wave power observed by GOES<br />
<br />
== 2017 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2017 mini-GEM] workshop<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 10, 2017, Canal/50<br />
<br />
'''ULF wave modeling challenges'''<br />
Discussion of final plans for the CCMC ULF wave modeling challenge with idealized drivers, as well as open discussion of new challenges involving data-model and model-model comparisons during [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing specific events]. Please come with 1-2 slides showing examples of such comparisons, ideas for improving ULF wave models, and/or ideas for specific modeling challenges/sessions relevant to the FG science questions.<br />
<br />
*1. 12:00-12:30 Overview of CCMC ULF wave modeling challenge with idealized driving conditions, description of challenge events and targets proposed during 2017 GEM meeting and November modeling telecon (Michael Hartinger, Lutz Rastaetter)<br />
*2. 12:30-13:30 [https://drive.google.com/file/d/1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI/view?usp=sharing Open discussion of challenge events and targets (Allison Jaynes,] Robert Rankin), select challenge event to be analyzed at 2018 GEM<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 10, 2017, Canal/50<br />
<br />
'''Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
Discussion of HGSO coordination for ULF wave studies. This includes updates on the [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] conjunction event followed by an open discussion of conjunctions and datasets that are particularly useful for ULF wave studies, including upcoming RBSP-ERG-ground conjunctions. Please come with 1-2 slides showing examples of datasets and past/upcoming conjunctions ideal for addressing the FG science questions: What excites ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in MI coupling? We welcome discussion from both modelers and observers of the types of conjunctions and observations that are most needed to address these questions.<br />
<br />
*1. 13:50-14:20 Recently available datasets and conjunctions for ULF wave studies (Chih-Ping Wang, Xueling Shi, Sana Qamar, Rob Redmon)<br />
*2. 14:20-14:35 Updates on 2 May 2017 conjunction event (Toshi Nishimura, Michael Hartinger)<br />
*3. 14:35-15:20 Upcoming ARASE-RBSP conjunctions (Yoshi Miyoshi), Open Discussion of HGSO coordination for ULF wave studies (Toshi Nishimura, Kazue Takahashi)<br />
<br />
== 2018 GEM meeting schedule ==<br />
UMEA will hold [https://drive.google.com/file/d/1uh-ZOICfOBzNs9KLe3saFMnY9P-oqV9R/view?usp=sharing four sessions] at the 2018 GEM meeting. <br />
<br />
'''ULF waves during particle injections and dipolarizations, joint with Dipolarization and Substorm FG''': 10:30-12:00, Monday, June 18<br />
<br />
*1. Discussion of Session Topic<br />
<br />
*2. Bob Lysak -- [https://drive.google.com/file/d/1w8o5aGYbLsIEy2YmaoosF3WNeWTuLE59/view?usp=sharing Ionospheric Conductivity Effects on Pi2 Pulsations]<br />
<br />
*3. Mike Hartinger -- [https://drive.google.com/file/d/1tcJgspMQDkhPPvSTng4eZP7h-j7jvVR7/view?usp=sharing Pi2 waves during an extended period with stable plasmapause location and variable geomagnetic activity]<br />
<br />
*4. Toshi Nishimura -- Ionosphere observations of Pc5 ULF waves during 2018 HGSO conjunctions<br />
<br />
*5. Xueling Shi -- Long-lasting poloidal ULF waves observed by multiple satellite and SuperDARN HF radars<br />
<br />
*6. Jian Yang -- New RCM-I simulation results for buoyancy waves<br />
<br />
*7. Dick Wolf -- [https://drive.google.com/file/d/1vTkH_lmgXCcvkAYU6HgO_R5ZgIdGji3O/view?usp=sharing Theory of Buoyancy Waves] <br />
<br />
*8. Yan Song -- What Causes the Substorm Expansion Phase and Associated ULF Waves?<br />
<br />
<br />
'''Recent advances in ULF wave research''': 1:30-3:00, Monday, June 18 <br />
<br />
*1. [https://drive.google.com/file/d/1ms9kDYlBhCnxti8z9o9Lx8y0PPmkWu_-/view?usp=sharing Overview of focus group goals and recent progress]<br />
<br />
*2. Brief ULF wave poster overviews (Tuesday posters)<br />
<br />
*3. Kazue Takahashi -- Observation of nightside ULF waves by RBSP and Arase<br />
<br />
*4. Tom Elsden -- Broadband Excitation of 3D Alfven Resonances (FLRs) in an MHD Waveguide<br />
<br />
*5. Boyi Wang -- 2-D structure of foreshock driven Pc5 ULF waves observed by the THEMIS satellites and South Pole imager<br />
<br />
*6. Xiaochen Shen -- Foreshock transient-driven ultra-low frequency (ULF) waves with dawn-dusk asymmetry of wave power<br />
<br />
*7. Chih-Ping Wang -- ULF waves possibly driven by tailward propagation of foreshock perturbations<br />
<br />
*8. Allison Jaynes -- [https://drive.google.com/file/d/1EC3yPvda8fA0LUr9qTfszluNDLs6LdHT/view?usp=sharing Fast diffusion of ultra-relativistic electrons in the outer radiation belt: 17 March 2015 storm event]<br />
<br />
*9. Rualdo Soto -- The Drift-Mirror instability in Earth's inner magnetosphere<br />
<br />
*10. Martin Archer/Mike Hartinger -- [https://drive.google.com/file/d/1t4fmiiZP9wdJ-40TISEC7BuicEd64m7W/view?usp=sharing Results from Sonification and Citizen Science of Magnetospheric ULF waves]<br />
<br />
<br />
'''EMIC wave generation, propagation, and interactions''': 3:30-5:00, Monday, June 18 (discussion leaders: Alexander Drozdov and Maria Usanova)<br />
[https://drive.google.com/open?id=15rjO2UxK8sqdOfHXunDSLv5q-z51vwuD Session Summary]<br />
<br />
*1. Dedong Wang -- EMIC wave observations from Van Allen Probes and MMS<br />
<br />
*2. Mark Engebretson -- [https://drive.google.com/file/d/1jkhN45ezaeQyeAA7HmVuYOF_izjAMYra/view?usp=sharing Van Allen Probes, and ground based magnetometer observations of EMIC waves associated with a modest interplanetary shock]<br />
<br />
*3. Maria Usanova -- MMS Observations of Harmonic Electromagnetic Cyclotron Waves<br />
<br />
*4. Naritoshi Kitamura -- Direct measurements of energy transfer from hot H+ to EMIC waves by MMS<br />
<br />
*5. Bruce Fritz -- ELF Whistler Dependence on a Sunlit Ionosphere<br />
<br />
*6. Chae-Woo Jun -- EMIC waves associated with/without the injection inside/outside the plasmapause<br />
<br />
*7. Hyomin Kim -- Injection-associated EMIC waves<br />
<br />
*8. Sebastian Cervantes -- EMIC wave parameterization in radiation belt reanalysis<br />
<br />
*9. Maria Usanova -- Long-term correlation of EMIC wave activity and radiation belt flux variations<br />
<br />
*10. Alexander Drozdov -- The effects due to the EMIC waves in the VERB code modeling<br />
<br />
<br />
'''ULF wave modeling challenge, joint with MMV FG''': 3:30-5:00, Wednesday, June 20<br />
<br />
*1. Brief ULF wave poster overviews (Thursday posters)<br />
<br />
*2. Mike Hartinger: [https://drive.google.com/file/d/1g2cL_qaDbASLH5DoJ_auJKQCbG96sdQn/view?usp=sharing ULF wave modeling challenge event overview, discussion of challenge targets (continuing during session)]<br />
<br />
*3. Mariko Teramoto: ARASE ULF wave observations during challenge event<br />
<br />
*4. Sam Califf: [https://drive.google.com/file/d/1CvbVG2Dp8e6RokJE0501L8-LU9ipdUFT/view?usp=sharing GOES-14 and 16 observations during the ULF wave challenge event, Data Discussion]<br />
<br />
*5. Toshi Nishimura: [https://drive.google.com/file/d/1cavbwNU4LoAigIsGvGF_UtiTaM97dFtP/view?usp=sharing PFISR measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*6. Dogacan Su Ozturk: [https://drive.google.com/file/d/1MmP3D_4eeJbEVJzUyx8fAtFsG3b0grzy/view?usp=sharing The modeling study of the 27 March 2017 Event] <br />
<br />
*7. Xiaochen Shen: GEM Challenge Event: ULF wave-related electron and proton precipitation/negative dynamic pressure pulse driven EMIC wave<br />
<br />
*8. Tetsuo Motoba: [https://drive.google.com/file/d/1544ngYBXat-zUC1gZqo0lMVUZtYqxUqH/view?usp=sharing Auroral measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*9. Others discuss when their figures/summary plots in event overview pdf are presented…<br />
<br />
== 2018 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2018 mini-GEM] workshop<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF modulation of the aurora, Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
This session focuses on understanding a variety of mechanisms responsible for ULF modulations of the aurora. Eric Donovan will give a 30 minute invited presentation, with the rest of the session open for presentations and discussion on this topic. We welcome discussion of ULF aurora generation mechanisms and the types of conjunctions, observations, and models needed to understand the zoo of ULF auroral modulations. We also welcome discussion of upcoming observation campaigns/satellite conjunctions that would be particularly useful for ULF wave studies.<br />
<br />
*1. Eric Donovan<br />
*2. Tetsuo Motoba<br />
*3. Slava Pilipenko<br />
*4. Boyi Wang / Toshi Nishimura<br />
*5. Open discussion<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF wave modeling challenge and research highlights'''<br />
The first part of the session is for updates on the idealized ULF wave modeling challenge and potential 2019 GEM sessions. The next part of the session is for observation/model presentations relevant to the 27-28 May 2017 ULF wave challenge event and final selection of the modeling challenge targets – all types of models and observations welcome. The last part of the session will be open for 1 slide ULF wave modeling and observation research highlights. <br />
<br />
*1. [https://drive.google.com/file/d/1vqxxn3gYXfzDKABe9yRwMgR8vbKRua_j/view?usp=sharing 2019 GEM session ideas] (Mike Hartinger)<br />
*2. Idealized Modeling Challenge (Lutz Rastaetter)<br />
*3. ULF wave modeling challenge event updates: Rob Redmon/Sam Califf/Mike Hartinger (GOES magnetometer observations), Yoshi Miyoshi (Arase magnetic field observations), [https://drive.google.com/file/d/1B6DGHvAzUhBG79eUJWPsUD2BSjGhQrrw/view?usp=sharing Hyomin Kim (wave-particle interaction)], [https://drive.google.com/file/d/180iaBGrbCPf1rYy6uVZn8OsLTOFREqsD/view?usp=sharing Dong Lin (LFM simulations)]<br />
*4. General ULF wave modeling: [https://drive.google.com/file/d/10gUKitjDPnbV_g9r9CAHDFeE365wUQQd/view?usp=sharing Yaireska Collado-Vega (vortex identification/surface waves)], [https://drive.google.com/file/d/1kkGlYKoYHr7XZf5nT3kaXITUD3tpNynJ/view?usp=sharing Alex Degeling (ULF wave radiation belt interactions)] <br />
*5. Research highlights (1-slide): Rualdo Soto (Van Allen Probes and Cluster satellites’ observations of Pc 5 (mHz) magnetic pulsations), [https://drive.google.com/file/d/1V_Joz3psBQbCBoVKRYaOKdKIEoZ72WgQ/view?usp=sharing Xueling Shi (SuperDARN ULF waves)], Martin Archer (magnetopause surface eigenmodes), [https://drive.google.com/file/d/1Mmi3VfERKswG3dpYidVUgOQra2UG-9s2/view?usp=sharing Martin Archer (sonification)]<br />
<br />
== 2019 GEM meeting schedule ==<br />
<br />
UMEA will hold [https://drive.google.com/file/d/1KmH9XqxrisGH_g4s0ny7QDkutmv7tKlr/view?usp=sharing six sessions] at the 2019 GEM meeting, four joint with other focus groups. <br />
<br />
'''Recent advances in ULF wave research: Modeling''': 3:30-5:00, Monday, June 24 New Mexico room, joint with MMV. <br />
Discussion of advances in ULF wave research, with focus on modeling and modeling challenges (e.g., boundary conditions, grid resolution, missing physics). This includes models of the effects of ULF waves on inner magnetosphere dynamics and wave-particle interactions. We particularly encourage presentations focused on the ULF wave modeling challenge, including data-model comparisons for the 27-28 May 2017 challenge event.<br />
*Mike Hartinger, [https://drive.google.com/open?id=1Drkq9epsQWY4AjpV1EF-8Ci_kaKyN2jk FG updates]<br />
*Jesper Gjerloev, SuperMAG ULF updates<br />
*Tetsuo Motoba, High-time resolution SuperMAG ULF data products<br />
*Lutz Rastaetter, ULF wave modeling challenge<br />
*Maulik Patel, MHD test particle simulations of the 16 July 2017 shock compression of the dayside magnetopause <br />
*Bob McPherron, Pi 2 pulsations during the storm of May 27-29 2017, The Statistics of Pi 2 Pulsation Occurrence during a Major Magnetic Storm<br />
*Dong Lin, LFM simulations of surface waves during challenge event<br />
<br />
'''The ULF response to dayside transients with different temporal/spatial scales''': 10:30-12:00, Wednesday, June 26 Santa Fe room, discussion leader: Tom Elsden, joint with Dayside Kinetics and IHMIC. <br />
Dayside transient phenomena associated with kinetic scale processes cause a variety of ULF wave behaviour in the magnetosphere and further, contribute to significant magnetospheric asymmetries. The aim of this session is to bring together the expertise of the three focus groups listed above, to answer outstanding questions at the overlap of these disciplines. It is hoped that such a discussion should prove fruitful enough to generate a JGR commentary paper in this area. With this in mind, speakers in this session are encouraged to give their views as to the current state of the subject area, and how outstanding problems may be addressed in the future.<br />
* Tom Elsden - Session introduction and goals<br />
* Ferdinand Plaschke (invited) - An overview of dayside transients causing ULF waves<br />
* Tom Elsden - 3D ULF wave modeling with MHD<br />
* Boyi Wang - The role of magnetosheath high-speed jets in triggering magnetospheric Pc5 ULF waves<br />
* Bob Lysak - Ionospheric asymmetries and quarter-wave modes<br />
* Xueling Shi - Conjugate Observations of ULF Waves during an Extended Period of Radial IMF<br />
* Michael Hartinger - Localized magnetopause surface wave activity and [https://drive.google.com/open?id=1d8lDB-FPGa6VErL37aZz3xZSgpNvxbk0 modeling challenges]<br />
* Discussion<br />
<br />
'''ULF wave modeling challenges associated with Magnetosphere-Ionosphere-Thermosphere Coupling''': 3:30-5:00, Wednesday, June 26 Lumpkins Ballroon South, joint with IEMIT, discussion leader Doga Ozturk. <br />
ULF waves play important roles in M-I-T coupling, driving current systems that can lead to I-T system heating and geomagnetically induced currents. This session aims to bring together researchers from the ULF wave and M-I-T coupling research communities to discuss challenges associated with realistically modeling M-I-T coupling processes associated with these waves. The session will begin with a discussion of the ULF wave challenge event; comparisons between modeled / observed (PFISR) conductivities and modeled/observed ULF wave properties will be presented, and the community will be invited to discuss explanations for model/observation differences. The rest of the session is open for short presentations on ULF wave modeling challenges related to M-I-T coupling, including topics such as specifying conductivity and effect of conductivity on wave properties, effect of ionospheric boundary conditions in global simulations, boundary conditions and feedback between magnetosphere and ionosphere, capturing role of waves in ionospheric-thermospheric heating.<br />
# (Invited) Boyi Wang: Ionospheric modulation by Pc5 ULF waves and wave structure detected by PFISR<br />
# (Invited) Xiaojia Zhang / Anton Artemyev: ULF modulation of VLF waves and precipitation<br />
# Doga Ozturk: Update from GEM/CEDAR joint session, [https://drive.google.com/open?id=1WsSf4PFHiBo_iZ3za-bhUWKHFJd4MNQX ULF Wave activity and Meso-Scale electric field variability at high-latitude I-T system]<br />
# Anatoly Streltsov: ULF waves generated by the MI interactions near the plasmapause<br />
# Mergen Alimaganbetov: ULF waves observed in space and on the ground at high and low latitudes<br />
# Mark Engebretson: [https://drive.google.com/open?id=16WbDl3rnuehoifUqFj4oMw_Tn5WhEFlU Multi-Instrument Observations of Nighttime Impulsive Magnetic Events]<br />
# Bob Lysak: Modeling ionospheric conductance and ground magnetic fields<br />
# Yan Song: ULF wave, M-I coupling and Auroral formation.<br />
<br />
[https://drive.google.com/open?id=1wGpZPk086Zs54uWGtYiRjByPmVCFnsSv '''EMIC waves''']: 10:30-12:00, Thursday, June 27 New Mexico room, joint with Radiation Belt. <br />
The generation mechanisms of Electromagnetic Ion Cyclotron (EMIC) waves, their effects on energetic electrons and ions, and their propagation through the magnetosphere-ionosphere system are challenging topics that involve multiple GEM research areas. Despite several years of observations and improved global wave statistics, there are many unresolved questions that limit further investigation, modeling and prediction of dynamical processes in the inner magnetosphere involving EMIC waves. Hence, we invite short presentations that discuss recent findings in different areas of EMIC wave research and identify observations/models most needed to address unresolved questions.<br />
*Robert Allen, Outer magnetospheric EMIC wave source regions characterized by Cluster<br />
*Sarah Vines, EMIC waves in the outer magnetosphere: Observations of an off-equator source region<br />
*Justin Lee, [https://drive.google.com/open?id=1xlJfppvWgOC_JHy6QgPpptcI3GjkYuLC EMIC wave observations by MMS] <br />
*Chao Yue, The relationship between EMIC wave properties and proton distributions based on Van Allen Probes observations<br />
*Kristine Sigsbee, Simultaneous EMIC Wave Observations During a Van Allen Probes Conjunction<br />
*Hyomin Kim, [https://drive.google.com/open?id=1UmmYHxyIcH2FfQmRnffGNnCUNjH8S5qQ Observations of Particle Loss due to Injection-Associated EMIC Waves]<br />
*Yuri Shprits, Dips in PSD and how they are related to EMIC wave scattering<br />
*Richard Denton, Electromagnetic ion cyclotron waves in the dipole magnetosphere and pitch angle scattering of sub-MeV relativistic electrons by those waves<br />
*Qianli Ma, Pitch angle scattering of radiation belt electrons due to statistical EMIC wave spectra <br />
<br />
'''Recent advances in ULF wave research: Observations and HGSO coordination for ULF wave studies''': 1:30-3:00, Thursday, June 27 New Mexico room. <br />
Discussion of recent advances in ULF wave research, with focus on observations and a general discussion of Heliophysics/Geospace System Observatory coordination for ULF wave studies. We particularly encourage presentations describing (1) past or upcoming satellite conjunctions, (2) new data analysis tools, and/or (3) instrumentation/operation modes of interest to the ULF wave research community.<br />
*Seth Claudepierre/Matina Gkioulidou (invited), [https://drive.google.com/open?id=1bjENFjvkWSjLYA_EfFuTxhCyKtVlk7c1 Van Allen Probes: End of Mission and ULF wave studies]<br />
*Tetsuo Motoba, SuperMAG ULF wave tools<br />
*Sarah Vines, Determining EMIC wave vector properties through multi-point measurements: The wave curl analysis<br />
*Aaron Breneman, [https://drive.google.com/open?id=1NHlf9I_VV6vkx9id_NL4gE6YhEsSRxkG BARREL precipitation during solar wind driven ULF wave events] <br />
*Anatoly Streltsov, Effect of the Hall conductivity on generation of ULF waves<br />
*Mohammad Barani, [https://drive.google.com/open?id=1sCMVi0pbWsggpUUnotdl-4LO_hfGGFEc Estimating the Azimuthal Mode Structure of ULF Waves Based on Multiple GOES Satellite Observations]<br />
*Kazue Takahashi, L versus time structures of ground magnetic pulsations<br />
*Chih-Ping Wang, Earthward propagation of Pi2 waves<br />
<br />
'''ULF waves driven by wave-particle interactions and instabilities''': 3:30-5:00, Thursday, June 27 Lumpkins Ballroon South, discussion leaders: Xueling Shi and Hyomin Kim. <br />
Many ULF wave modes are closely related to instabilities and wave-particle interactions inside the magnetosphere: poloidal mode waves associated with particle injections, mirror/drift-mirror modes, buoyancy waves… These waves are often discussed in different contexts and in different GEM sessions. In addition, there have been relatively few studies of modeling internally generated ULF waves. The purpose of this session is to bring together modelers and observers to discuss the underlying processes that drive/damp these waves, their impact(s) on the M-I system (ring current, radiation belt, ionosphere,…), and the models/observations needed to better understand wave dynamics.<br />
*Xuzhi Zhou (invited), Acceleration of relativistic electrons by global-scale ULF waves<br />
*Tomotsugu Yamakawa (invited), [https://drive.google.com/open?id=1PEsq7oWVeXwwXn3JvE5ZvWQIIjfXwKRB Simulation of the excitation of storm-time Pc5 ULF waves by ring current ions based on the drift-kinetic model]<br />
*Frank Toffoletto, Normal Mode Analysis of Buoyancy Waves <br />
*Peter Chi, Observations of High-m Poloidal Waves along Magnetospheric Field Lines<br />
*Mike Hartinger, [https://drive.google.com/open?id=17do2Jxy01SJPmOloBxzTPID9ZzqaPGZI Observations of wave-particle interactions using MagEIS ultra-high resolution energy channels]<br />
*Jiang Liu, Ultralow Frequency Waves Deep Inside the Inner Magnetosphere Driven by Dipolarizing Flux Bundles, and their interaction with electrons<br />
*Kyle Murphy, TBD<br />
<br />
== 2019 Mini-GEM schedule ==<br />
UMEA will hold one session at the [https://gemworkshop.org/ 2019 mini-GEM] workshop<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 8, 2019, Nevada Room<br />
<br />
'''ULF wave modeling challenge event, HGSO coordination, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge and potential 2020 GEM sessions. The next part of the session is open for ULF wave research presentations discussing the ULF wave modeling challenge event or current/upcoming observation campaigns that are particularly useful for ULF wave studies. The last part of the session will be open for 1 slide ULF wave research highlights.<br />
<br />
*Mike Hartinger, [https://drive.google.com/open?id=1eQQc07g7nCTEGNwaTGesQx4ymIU6m815 UMEA updates and proposed sessions for 2020 GEM workshop]<br />
*Dong Lin, [https://drive.google.com/open?id=1SqiD1u69eyKNzLyrtvTWbMK05L5OrkrO LFM Simulations of ULF wave modeling challenge event]<br />
*Mohammad Barani, [https://drive.google.com/open?id=1fQAossqjQ-aBuGIBhDIW6I0_WEtHdQsF High-fidelity ULF wave azimuthal mode number structure estimation using MMS magnetometer observations], [https://www.youtube.com/watch?reload=9&v=W5Vya8pCjNE&t=1s link to related presentation on YouTube]<br />
*Chih-Ping Wang, [https://drive.google.com/open?id=19ugyLwyIp4YRuLpDuzT330IdbbFppQcr Inward propagation of Pi2 wave from plasma sheet to inner magnetosphere: THEMIS-GOES conjunctions]<br />
*Walk-ins<br />
<br />
== 2020 VGEM schedule ==<br />
UMEA will hold two sessions at the [https://gemworkshop.org/ 2020 Virtual GEM] workshop<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave modeling challenge event'''<br />
(Hosted by Xueling Shi)<br />
The first part of the session is for updates on research related to the challenge event (27-29 May 2017 storm): All modeling and observation talks welcome as long as they're related to this event. The last part of the session will be for short research highlights and oral summaries of posters.<br />
<br />
*Mike Hartinger (10 minutes), [https://drive.google.com/file/d/1Z5-g7-f-iKfpuWD03WVkA3Q2Rb9mbQfe/view?usp=sharing 2020 UMEA updates and overview of challenge event] <br />
*Simone Di Matteo (15 minutes), [https://drive.google.com/file/d/1acsSyIszg95muYurOkn0RmW0btblS3Ja/view?usp=sharing On some features characterizing the plasmasphere–magnetosphere–ionosphere system during the geomagnetic storm of 27 May 2017] <br />
*Bob McPherron (15 minutes), [https://drive.google.com/file/d/1pnqs49KamZF2BLgMdaoOroktmkBNnj1c/view?usp=sharing ULF wave activity at synchronous orbit during the May 27-29, 2017 Magnetic storm]<br />
*Boyi Wang (15 minutes), Ionospheric modulation by storm-time Pc5 ULF waves and wave structure detected by PFISR-THEMIS conjunctions<br />
*Lutz Rastaetter (15 minutes), [https://drive.google.com/file/d/1H9nTOrpQHX0NEau1eSktWjWM0KYbyfnM/view?usp=sharing Idealized ULF wave modeling challenge: high-resolution runs] <br />
*Mark Engebretson (5 minutes), [https://drive.google.com/file/d/1kvWyYe52OkTB7uUmKWRDSO305Jina-Yy/view?usp=sharing Nighttime magnetic perturbation events observed in Arctic Canada: Superposed epoch analysis]<br />
*Jinxing Li (5 minutes), Electron microinjections in association with compressional ULF waves: MMS observations<br />
*Xiaojia Zhang (5 minutes), [https://drive.google.com/file/d/1fKwf0t1ohDZIxF5NPtsgGKNP0cBEqECn/view?usp=sharing Spreading of Magnetopause-Generated Ultra-Low-Frequency Perturbations and the Associated Whistler Modulation] <br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave research highlights'''<br />
These will be contributed talks with priority given to graduate students and postdocs. The rationale is that virtual GEM will not provide the same type of networking opportunities as in-person GEM, and we'd like to balance this somewhat by giving more opportunities to students/postdocs to present their work on ULF waves.<br />
<br />
All presentations are 10 minutes including discussion:<br />
*Rachel Rice, Characteristics of Kelvin-Helmholtz Waves as Observed by MMS<br />
*Dong Lin, Idealized ULF wave simulations with GAMERA-RCM model<br />
*Boyi Wang, The interaction between ions and the ULF waves driven by a foreshock transient<br />
*Jayashree Bulusu, [https://drive.google.com/file/d/1YyRAo0I7Cf4-buxhTBXLxYaTWw7GX6SZ/view?usp=sharing Investigation of Pi2s during super quiet conditions from low and mid-latitudes]<br />
*Changzhi Zhai, High-m Poloidal ULF Wave Signatures in GPS TEC Data<br />
*Simone Di Matteo, [https://drive.google.com/file/d/1yYaidiu7O4a0Z8PeQXELiyatB03hJQyX/view?usp=sharing Power Spectral Density Background Estimate and Signal Detection via the Multitaper Method] <br />
*Yixin Hao, [https://drive.google.com/file/d/1iIf5QpLE9t7IThiIPNwhCoRHrbFDoR8R/view?usp=sharing Simultaneous observations of localized and global drift resonance]<br />
*Mohammad Barani, [https://drive.google.com/file/d/1it2y8JXJzrbjmt56MWia7ffbei63gIwC/view?usp=sharing Effects of realistic mode number structure on radial diffusion estimation]<br />
<br />
== 2021 Virtual Mini-GEM schedule ==<br />
UMEA will hold one session at the Virtual Mini-GEM Worskhop.<br />
<br />
'''Time''': 12:00-14:00 US Eastern Time, Friday, January 22, 2021<br />
<br />
'''ULF wave modeling challenge event, planning for 2021 GEM meeting, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge event, including an invited talk by Naoko Takahashi. The next part of the session will be for open discussion on potential 2021 GEM sessions. The final part of the session will be open for ULF wave research highlights. <br />
*Mike Hartinger, Brief Introduction to Challenge event<br />
*Naoko Takahashi, Relative contribution of ULF waves and whistler-mode chorus to the radiation belt variation during May 2017 storm<br />
*Ian Kelley, GPS TEC response during the ULF wave challenge event<br />
*Mike Hartinger, ULF wave geoelectric fields during the challenge event<br />
*All, Planning for 2021 GEM sessions<br />
*Bob Lysak, FLRs in Jupiter's magnetosphere<br />
*Toshi Nishimura, Upcoming conjunctions for ULF wave studies<br />
*Toshi Nishimura, PFISR and all-sky imager observations of Pc5 ULF waves during substorms<br />
*Francesco Lena, Detection of Hertz Frequency Multiharmonic Field Line Resonances at Low-L (L=1.1–1.5) During Van Allen Probe Perigee Passes<br />
<br />
== 2021 VGEM schedule ==<br />
UMEA will lead four sessions at the [https://gemworkshop.org/ 2021 Virtual GEM] workshop.<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''Recent Advances in ULF Wave Research'''<br />
This session will start with a short update on the ULF wave modeling challenge. The rest of the session will be for recent advances in ULF wave research, with priority given to presentations (1) with data or modeling results related to the challenge event (27-28 May 2017) or (2) discussions of ULF wave data-model comparisons.<br />
<br />
*Schedule TBD<br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''The Future of ULF Wave Research'''<br />
This session will begin with a review of the ULF wave FG’s original goals, research topics covered in the last 5 years and related activities, and unresolved questions and research objectives. The remainder of the session is open for 1-2 slide presentations on major unresolved questions in ULF wave research. We particularly encourage presentations (1) exploring topics that could be addressed by current/future GEM FG or decadal survey white paper, (2) highlighting major questions or obstacles preventing progress in ULF wave research (e.g., missing data in a critical region, missing theory/modeling component), (3) discuss how ULF wave researchers can best take advantage of future satellite missions, ground-based infrastructure, computing advances/big data/AI, and modeling/theory advances. <br />
<br />
*Schedule TBD<br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Tuesday, July 27, 2021<br />
<br />
'''ULF Wave M-I Coupling Processes'''<br />
This session is joint with the IEMIT FG. The session will begin with a review of the role of ULF waves on M-I coupling. The remainder of the session is open for 5-min presentations on ULF wave topics related to M-I coupling, e.g., auroral acceleration, particle precipitation, geomagnetic perturbations, GICs, etc. More questions and discussions will be left to the end.<br />
<br />
*Schedule TBD<br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Friday, July 30, 2021<br />
<br />
'''Coupling Between ULF Waves and Cold Plasma'''<br />
This session is joint with the Cold Plasma FG. The session will begin with a review of mechanisms that couple cold plasma populations to ULF waves by Richard Denton. The remainder of the session is for contributed presentations (likely 2-3 slides) describing (1) recent advances in our understanding of cold plasma interactions with ULF waves and (2) outstanding questions that could be discussed in future cold plasma FG sessions.<br />
<br />
*Schedule TBD</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=FG:_ULF_Wave_Modeling,_Effects,_and_Applications&diff=5312FG: ULF Wave Modeling, Effects, and Applications2021-07-03T16:50:16Z<p>Mdhartin: /* 2021 VGEM schedule */</p>
<hr />
<div>''Focus Group Leaders:''<br />
* Michael Hartinger, Space Science Institute (mhartinger@spacescience.org)<br />
* Kazue Takahashi, Applied Physics Laboratory<br />
* Alexander Drozdov, UCLA<br />
* Maria Usanova, University of Colorado<br />
* Brian Kress, University of Colorado and NOAA-NCEI<br />
* Xueling Shi, Virginia Tech<br />
<br />
Focus Group term: 2016-2021<br />
<br />
Join the discussion on [https://gemworkshop.slack.com/archives/C016U8PA7TJ Slack], including discussion related to the 2020 GEM and 2021 miniGEM meetings.<br />
<br />
== Science Questions ==<br />
Our group aims to address the following broad science questions: What mechanisms excite ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in Magnetosphere-Ionosphere coupling?<br />
<br />
== Focus Group Proposal ==<br />
[http://gem.epss.ucla.edu/mediawiki/FGproposals/Hartinger-UMEA.pdf ULF Wave Modeling, Effects, and Applications (UMEA)] (December 2015)<br />
<br />
== ULF wave modeling challenge ==<br />
<br />
One part of the ULF wave modeling challenge involves running several global MHD simulation codes with identical, idealized solar wind driving conditions (sinusoidal density variation), then comparing the resulting global ULF wave properties and discussing differences in the context of differing boundary conditions, grids, etc. More details can be found here: [http://ccmc.gsfc.nasa.gov/challenges/ULF/ ULF wave modeling challenge at CCMC]<br />
<br />
Another part of the ULF wave modeling challenge involves data-model comparisons during specific events. At the 2017 GEM and mini-GEM meetings several [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing challenge events] were proposed, including two [https://drive.google.com/open?id=1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI 2017 events].<br />
<br />
We have selected the [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing 27-28 May 2017 storm event] for the ULF wave modeling challenge due to favorable solar wind coverage and availability of numerous satellites (MMS, ARASE, THEMIS, RBSP, Cluster, GOES, ...) and ground-based observations for global context and multi-point wave observations. We will be continuously updating this [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing overview presentation] with observation and modeling results. Model output and observations for the challenge event - including global densities from the NURD model - can be obtained [https://drive.google.com/drive/folders/1Bk9vJtbEHd-vSuYqr3UG9NGCqaBn69hw?usp=sharing here]. If you would like to add additional observations/model output to the google drive or overview pdf, please contact the co-chairs.<br />
<br />
CCMC has run several global MHD simulation codes using the driving conditions of the ULF wave challenge event. At the 2019 GEM meeting and future GEM/mini-GEM meetings, we plan data-model comparisons to identify where model/data don't agree and discuss these differences in the context of incorrect boundary conditions (e.g., compare model ionosphere to local PFISR-derived conductivities), missing physics, numerical dissipation, etc. Please contact CCMC/Lutz Rastaetter and model developers before using this simulation output in publications:<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_SWMF_040319_1 Space Weather Modeling Framework simulation], IMF Bx=0 (other parameters as in event). Full 2-day event, 3D output every 15s, virtual ground magnetometer. If you haven't used CCMC visualization tools before, be aware that you shouldn’t submit multiple visualization requests at the same time, as this could crash CCMC server for these large 3D files. Instead, request a batch process or wait for the first visualization request to complete. The easiest/fastest visualization is to follow the link above and scroll down until you see the virtual ground magnetometer and satellites list. Click on the magnetometer/satellite of interest, then select which parameter(s) to display/download. <br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_1 OpenGGCM run 1] – IMF Bx = -7 nT. Smaller time range available on 28 May 0400-1000, only virtual ground magnetometer from POKR/CMO available now. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_1 Full results including virtual satellite.]<br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_2 Open GGCM run 2] – IMF Bx = 0 nT (as in SWMF simulation). Same format as other OpenGGCM simulation. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_2 Full results including virtual satellite.]<br />
<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_LFM_051519_2 LFM simulation]<br />
<br />
== ULF wave HGSO event coordination ==<br />
Our group is helping coordinate analysis of conjunction events for ULF wave studies, including requesting instrument operation modes favorable for ULF wave analysis.<br />
<br />
The [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] 0400-0800 UT conjunction event includes several satellites (THEMIS, Cluster, Van Allen Probes, GOES, Geotail, FIREBIRD, METOP, POES, DMSP) in the pre-midnight sector during a conjunction with the Poker Flat Incoherent Scatter Radar and several SuperDARN radars. PFISR was operating throughout the conjunction, several SuperDARN radars were in high resolution sampling modes, and several satellites were operating in fast survey/burst mode. The conjunction is favorable for modeling and observation studies of magnetosphere-ionosphere coupling via ULF waves, wave-particle interactions, global ULF wave properties, and many other topics. [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing This pdf] summarizes preliminary results<br />
<br />
Several web-based tools are available for identifying future conjunctions, including [https://ergsc.isee.nagoya-u.ac.jp/analysis/index.shtml.en upcoming conjunctions between ARASE and Van Allen Probes/ground] and conjunctions between [https://swarm-aurora.com/conjunctionFinder/ SWARM/all-sky cameras].<br />
<br />
'''There are also many specialized, web-based tools for ULF wave analysis (please contact FG co-chairs to add to this list):'''<br />
<br />
*SuperMAG ground-based magnetometer [http://supermag.jhuapl.edu/rBrowse/?start=2001-01-30T05%3A00%3A00.000Z&step=14400 global ULF wave plots]<br />
<br />
*CARISMA ground-based magnetometer [http://www.carisma.ca/carisma-data/fgm-pc1-power-spectra Pc1 power spectra] and [http://www.carisma.ca/carisma-data/fgm-pc5-power-spectra Pc5 power spectra]<br />
<br />
*Augsburg College/UNH Arctic and Antarctic [http://space.augsburg.edu/searchcoil/index.html search coil magnetometer survey plots] <br />
<br />
*Augsburg College (hosted by ViRBO) [http://virbo.org/Augsburg/ULF ULF wave index]<br />
<br />
*[http://vt.superdarn.org/tiki-index.php?page=DaViT+DynFFT SuperDARN wave analysis] and [http://vt.superdarn.org/tiki-index.php?page=Data+Inventory identification of high time-resolution SuperDARN beams]<br />
<br />
*THEMIS satellite fluxgate magnetometer [http://themis.ssl.berkeley.edu/summary.php?year=2014&month=05&day=11&hour=0024&sumType=thmfgmdyn&type=themislinfgl wave survey plots]<br />
<br />
*National Institute of Polar Research inter-hemispheric comparisons of Syowa/Iceland [http://iugonet0.nipr.ac.jp/web/induction/ induction magnetometer spectra]<br />
<br />
*[http://mist.nianet.org/Satellite_Conjunctions/ Inter-hemispheric comparisons] during satellite conjunctions with Arctic(DTU Space)/Antarctic(Virginia Tech) magnetometers<br />
<br />
*[http://kho.unis.no/uaf_msp.htm Meridian Scanning Photometer plots] from [http://kho.unis.no/ UNIS/Kjell Henriksen Observatory], for context on open-closed boundary and ULF modulation of the aurora<br />
<br />
== Summary Reports for GEM workshops ==<br />
[https://drive.google.com/file/d/1QLH8FcKm3-f25aLwoetOuYJGZu5sPgN3/view?usp=sharing 2016 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1SRIv6Gn-NNnqGPHGvjvZQcdDml2GQpv_/view?usp=sharing 2017 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1clzFHWrxC9hvYf9kECJx4bPn9xn8WwsG/view?usp=sharing 2018 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1_fLwZFCLBTBHnq8HkaFPWUvaIY81E-t0/view?usp=sharing 2019 UMEA FG report]<br />
<br />
== 2016 Mini-GEM schedule ==<br />
UMEA will hold one session at the [http://www.cpe.vt.edu/gem-mini/ mini-GEM workshop]: ULF wave modeling, effects and applications updates<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 11, 2016<br />
<br />
'''Location''': Oregon Room, Holiday Inn Golden Gateway<br />
<br />
'''Schedule:'''<br />
<br />
'''First Half (12:00 – 12:45): 3 talks (~15 min each):'''<br />
<br />
*1. Mike Hartinger -- [http://gem.epss.ucla.edu/mediawikiwiki/images/7/7c/UMEAoverview_miniGEM2016.pdf Overview of UMEA current activities, discussion of future plans]<br />
<br />
*2. Lutz Rastaetter -- ULF wave modeling challenge at CCMC<br />
<br />
*3. Robert Rankin -- Modeling the global properties and ground-based signatures of ULF waves and wave-particle interactions<br />
<br />
'''Second Half (12:45 – 13:30): (5 minutes each, 1-2 slides, order of talks may change):'''<br />
<br />
*1. Xueling Shi -- SuperDARN THEMIS Mode Data Tracker & ULF Wave Detection<br />
<br />
*2. Richard Denton -- Mass density inferred from Alfven wave frequencies measured by RBSP<br />
<br />
*3. Lars Daldorff -- ULF waves, particle transport and energization in global MHD simulations with plasmasphere<br />
<br />
*4. Alexander Drozdov -- Dependence of radiation belt simulations to assumed radial diffusion rates tested for two empirical models of radial transport<br />
<br />
*5. Bob Lysak -- Quarter Wavelength Modes<br />
<br />
*6. Walk-ins<br />
<br />
== 2017 GEM meeting schedule ==<br />
UMEA will hold four sessions session at the 2017 GEM meeting<br />
<br />
'''UMEA Update and plans, general discussion of ULF wave modeling and observations''': 10:30-12:15, Monday, June 19, Port VI-VIII<br />
<br />
*1. Michael Hartinger -- [https://drive.google.com/file/d/0B57bC_V89WW6dnBCbmFFSkFURUk/view?usp=sharing UMEA update]<br />
<br />
*2. Toshi Nishimura -- PFISR measurements during the 2 May 2017 HGSO event<br />
<br />
*3. Xueling Shi -- [https://drive.google.com/file/d/0B57bC_V89WW6OUcyNGNWM0piWnc/view?usp=sharing A Survey of Ionospheric ULF Wave Signatures in SuperDARN Data: Occurrence Statistics and Driving Mechanisms]<br />
<br />
*4. Tetsuo Motoba -- Dayside Auroral Pulsations<br />
<br />
*5. Brian Kress and Rob Redmon -- Newly Available GOES 8-16 Particle and Magnetic Field Measurements<br />
<br />
*6. Dick Wolf -- Theory of magnetospheric buoyancy waves<br />
<br />
<br />
'''ULF wave interactions with the radiation belt and ring current populations''': 1:30-3:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Rualdo Soto-Chavez -- Generation of Pc5-ULF wave by the drift-mirror instability<br />
<br />
*2. Zhiyang Xia -- [https://drive.google.com/file/d/0B57bC_V89WW6Y1VQRXJKd3Qya3c/view?usp=sharing Eigenmode analysis of compressional poloidal modes in a self-consistent magnetic field]<br />
<br />
*3. Mark Engebretson -- [https://drive.google.com/file/d/0B57bC_V89WW6QlM3LU9lTVVwZ1E/view?usp=sharing Statistical study of the upper frequency cutoff of helium band EMIC waves observed by the Van Allen Probes]<br />
<br />
*4. Alexander Drozdov -- Radial diffusion and EMIC waves in the long-term simulation and in the case study<br />
<br />
*5. Seth Claudepierre -- Global MHD simulations driven by idealized Alfvenic fluctuations in the solar wind<br />
<br />
*6. Michael Hartinger -- Radiation belt response to large scale, monochromatic ULF waves: LANL-GEO observations<br />
<br />
<br />
'''ULF wave modeling, including CCMC modeling challenge, Joint with MMV''': 3:30-5:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Lutz Rastaetter -- CCMC ULF wave modeling challenge update and challenge events<br />
<br />
*2. Scot Elkington -- [https://drive.google.com/file/d/0B57bC_V89WW6WUxJcGNqbUU2bzA/view?usp=sharing ULF wave activity and diffusion coefficients during QARBM challenge events], [https://drive.google.com/file/d/0B3MAHZknMumcem40dTVyNVRFbE0/view?usp=sharing Ashar F. Ali’s write-up on Event-Specific Radial Diffusion Coefficients Derived Using RBSP EMFISIS and EFW Data]<br />
<br />
*3. Katariina Nykyri -- KHI challenge events<br />
<br />
*4. All -- Open Discussion of Challenge Events<br />
<br />
*5. Doga Ozturk -- Effects of Increased Solar Wind Dynamic Pressure on the Coupled M-I system under different IMF By<br />
<br />
*6. Kazue Takahashi -- Cavity mode Van Allen Probe observations<br />
<br />
*7. Bob Lysak -- Cavity mode models<br />
<br />
*8. Tom Elsden -- [https://drive.google.com/file/d/0B57bC_V89WW6SDNnYjdwSVM3Y3c/view?usp=sharing The Theoretical Foundation of 3D Alfven Resonances: Time Dependent Solutions]<br />
<br />
<br />
'''Magnetosphere-Ionosphere coupling processes associated with localized disturbances caused by dayside kinetic phenomena: Joint with “Dayside Kinetic Processes…” and “Testing proposed links…”''': 3:30-5:00, Tuesday, June 20, Port VI-VIII<br />
<br />
*1. Peter Chi -- Magnetospheric and ionospheric responses to a localized disturbance: The macroscopic view<br />
<br />
*2. Hui Zhang -- Magnetospheric ULF waves generated by foreshock transients<br />
<br />
*3. Hui Zhang -- Modeling challenges in simulating HFA geoeffects<br />
<br />
*4. Boyi Wang -- Optical signatures of dayside ULF waves during magnetosheath high-speed jets<br />
<br />
*5. Katariina Nykyri -- The effect of magnetosheath seed spectrum on KH evolution and associated mass transport<br />
<br />
*6. Kyle Murphy -- A statistical study of discrete ULF wave power observed by GOES<br />
<br />
== 2017 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2017 mini-GEM] workshop<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 10, 2017, Canal/50<br />
<br />
'''ULF wave modeling challenges'''<br />
Discussion of final plans for the CCMC ULF wave modeling challenge with idealized drivers, as well as open discussion of new challenges involving data-model and model-model comparisons during [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing specific events]. Please come with 1-2 slides showing examples of such comparisons, ideas for improving ULF wave models, and/or ideas for specific modeling challenges/sessions relevant to the FG science questions.<br />
<br />
*1. 12:00-12:30 Overview of CCMC ULF wave modeling challenge with idealized driving conditions, description of challenge events and targets proposed during 2017 GEM meeting and November modeling telecon (Michael Hartinger, Lutz Rastaetter)<br />
*2. 12:30-13:30 [https://drive.google.com/file/d/1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI/view?usp=sharing Open discussion of challenge events and targets (Allison Jaynes,] Robert Rankin), select challenge event to be analyzed at 2018 GEM<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 10, 2017, Canal/50<br />
<br />
'''Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
Discussion of HGSO coordination for ULF wave studies. This includes updates on the [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] conjunction event followed by an open discussion of conjunctions and datasets that are particularly useful for ULF wave studies, including upcoming RBSP-ERG-ground conjunctions. Please come with 1-2 slides showing examples of datasets and past/upcoming conjunctions ideal for addressing the FG science questions: What excites ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in MI coupling? We welcome discussion from both modelers and observers of the types of conjunctions and observations that are most needed to address these questions.<br />
<br />
*1. 13:50-14:20 Recently available datasets and conjunctions for ULF wave studies (Chih-Ping Wang, Xueling Shi, Sana Qamar, Rob Redmon)<br />
*2. 14:20-14:35 Updates on 2 May 2017 conjunction event (Toshi Nishimura, Michael Hartinger)<br />
*3. 14:35-15:20 Upcoming ARASE-RBSP conjunctions (Yoshi Miyoshi), Open Discussion of HGSO coordination for ULF wave studies (Toshi Nishimura, Kazue Takahashi)<br />
<br />
== 2018 GEM meeting schedule ==<br />
UMEA will hold [https://drive.google.com/file/d/1uh-ZOICfOBzNs9KLe3saFMnY9P-oqV9R/view?usp=sharing four sessions] at the 2018 GEM meeting. <br />
<br />
'''ULF waves during particle injections and dipolarizations, joint with Dipolarization and Substorm FG''': 10:30-12:00, Monday, June 18<br />
<br />
*1. Discussion of Session Topic<br />
<br />
*2. Bob Lysak -- [https://drive.google.com/file/d/1w8o5aGYbLsIEy2YmaoosF3WNeWTuLE59/view?usp=sharing Ionospheric Conductivity Effects on Pi2 Pulsations]<br />
<br />
*3. Mike Hartinger -- [https://drive.google.com/file/d/1tcJgspMQDkhPPvSTng4eZP7h-j7jvVR7/view?usp=sharing Pi2 waves during an extended period with stable plasmapause location and variable geomagnetic activity]<br />
<br />
*4. Toshi Nishimura -- Ionosphere observations of Pc5 ULF waves during 2018 HGSO conjunctions<br />
<br />
*5. Xueling Shi -- Long-lasting poloidal ULF waves observed by multiple satellite and SuperDARN HF radars<br />
<br />
*6. Jian Yang -- New RCM-I simulation results for buoyancy waves<br />
<br />
*7. Dick Wolf -- [https://drive.google.com/file/d/1vTkH_lmgXCcvkAYU6HgO_R5ZgIdGji3O/view?usp=sharing Theory of Buoyancy Waves] <br />
<br />
*8. Yan Song -- What Causes the Substorm Expansion Phase and Associated ULF Waves?<br />
<br />
<br />
'''Recent advances in ULF wave research''': 1:30-3:00, Monday, June 18 <br />
<br />
*1. [https://drive.google.com/file/d/1ms9kDYlBhCnxti8z9o9Lx8y0PPmkWu_-/view?usp=sharing Overview of focus group goals and recent progress]<br />
<br />
*2. Brief ULF wave poster overviews (Tuesday posters)<br />
<br />
*3. Kazue Takahashi -- Observation of nightside ULF waves by RBSP and Arase<br />
<br />
*4. Tom Elsden -- Broadband Excitation of 3D Alfven Resonances (FLRs) in an MHD Waveguide<br />
<br />
*5. Boyi Wang -- 2-D structure of foreshock driven Pc5 ULF waves observed by the THEMIS satellites and South Pole imager<br />
<br />
*6. Xiaochen Shen -- Foreshock transient-driven ultra-low frequency (ULF) waves with dawn-dusk asymmetry of wave power<br />
<br />
*7. Chih-Ping Wang -- ULF waves possibly driven by tailward propagation of foreshock perturbations<br />
<br />
*8. Allison Jaynes -- [https://drive.google.com/file/d/1EC3yPvda8fA0LUr9qTfszluNDLs6LdHT/view?usp=sharing Fast diffusion of ultra-relativistic electrons in the outer radiation belt: 17 March 2015 storm event]<br />
<br />
*9. Rualdo Soto -- The Drift-Mirror instability in Earth's inner magnetosphere<br />
<br />
*10. Martin Archer/Mike Hartinger -- [https://drive.google.com/file/d/1t4fmiiZP9wdJ-40TISEC7BuicEd64m7W/view?usp=sharing Results from Sonification and Citizen Science of Magnetospheric ULF waves]<br />
<br />
<br />
'''EMIC wave generation, propagation, and interactions''': 3:30-5:00, Monday, June 18 (discussion leaders: Alexander Drozdov and Maria Usanova)<br />
[https://drive.google.com/open?id=15rjO2UxK8sqdOfHXunDSLv5q-z51vwuD Session Summary]<br />
<br />
*1. Dedong Wang -- EMIC wave observations from Van Allen Probes and MMS<br />
<br />
*2. Mark Engebretson -- [https://drive.google.com/file/d/1jkhN45ezaeQyeAA7HmVuYOF_izjAMYra/view?usp=sharing Van Allen Probes, and ground based magnetometer observations of EMIC waves associated with a modest interplanetary shock]<br />
<br />
*3. Maria Usanova -- MMS Observations of Harmonic Electromagnetic Cyclotron Waves<br />
<br />
*4. Naritoshi Kitamura -- Direct measurements of energy transfer from hot H+ to EMIC waves by MMS<br />
<br />
*5. Bruce Fritz -- ELF Whistler Dependence on a Sunlit Ionosphere<br />
<br />
*6. Chae-Woo Jun -- EMIC waves associated with/without the injection inside/outside the plasmapause<br />
<br />
*7. Hyomin Kim -- Injection-associated EMIC waves<br />
<br />
*8. Sebastian Cervantes -- EMIC wave parameterization in radiation belt reanalysis<br />
<br />
*9. Maria Usanova -- Long-term correlation of EMIC wave activity and radiation belt flux variations<br />
<br />
*10. Alexander Drozdov -- The effects due to the EMIC waves in the VERB code modeling<br />
<br />
<br />
'''ULF wave modeling challenge, joint with MMV FG''': 3:30-5:00, Wednesday, June 20<br />
<br />
*1. Brief ULF wave poster overviews (Thursday posters)<br />
<br />
*2. Mike Hartinger: [https://drive.google.com/file/d/1g2cL_qaDbASLH5DoJ_auJKQCbG96sdQn/view?usp=sharing ULF wave modeling challenge event overview, discussion of challenge targets (continuing during session)]<br />
<br />
*3. Mariko Teramoto: ARASE ULF wave observations during challenge event<br />
<br />
*4. Sam Califf: [https://drive.google.com/file/d/1CvbVG2Dp8e6RokJE0501L8-LU9ipdUFT/view?usp=sharing GOES-14 and 16 observations during the ULF wave challenge event, Data Discussion]<br />
<br />
*5. Toshi Nishimura: [https://drive.google.com/file/d/1cavbwNU4LoAigIsGvGF_UtiTaM97dFtP/view?usp=sharing PFISR measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*6. Dogacan Su Ozturk: [https://drive.google.com/file/d/1MmP3D_4eeJbEVJzUyx8fAtFsG3b0grzy/view?usp=sharing The modeling study of the 27 March 2017 Event] <br />
<br />
*7. Xiaochen Shen: GEM Challenge Event: ULF wave-related electron and proton precipitation/negative dynamic pressure pulse driven EMIC wave<br />
<br />
*8. Tetsuo Motoba: [https://drive.google.com/file/d/1544ngYBXat-zUC1gZqo0lMVUZtYqxUqH/view?usp=sharing Auroral measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*9. Others discuss when their figures/summary plots in event overview pdf are presented…<br />
<br />
== 2018 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2018 mini-GEM] workshop<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF modulation of the aurora, Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
This session focuses on understanding a variety of mechanisms responsible for ULF modulations of the aurora. Eric Donovan will give a 30 minute invited presentation, with the rest of the session open for presentations and discussion on this topic. We welcome discussion of ULF aurora generation mechanisms and the types of conjunctions, observations, and models needed to understand the zoo of ULF auroral modulations. We also welcome discussion of upcoming observation campaigns/satellite conjunctions that would be particularly useful for ULF wave studies.<br />
<br />
*1. Eric Donovan<br />
*2. Tetsuo Motoba<br />
*3. Slava Pilipenko<br />
*4. Boyi Wang / Toshi Nishimura<br />
*5. Open discussion<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF wave modeling challenge and research highlights'''<br />
The first part of the session is for updates on the idealized ULF wave modeling challenge and potential 2019 GEM sessions. The next part of the session is for observation/model presentations relevant to the 27-28 May 2017 ULF wave challenge event and final selection of the modeling challenge targets – all types of models and observations welcome. The last part of the session will be open for 1 slide ULF wave modeling and observation research highlights. <br />
<br />
*1. [https://drive.google.com/file/d/1vqxxn3gYXfzDKABe9yRwMgR8vbKRua_j/view?usp=sharing 2019 GEM session ideas] (Mike Hartinger)<br />
*2. Idealized Modeling Challenge (Lutz Rastaetter)<br />
*3. ULF wave modeling challenge event updates: Rob Redmon/Sam Califf/Mike Hartinger (GOES magnetometer observations), Yoshi Miyoshi (Arase magnetic field observations), [https://drive.google.com/file/d/1B6DGHvAzUhBG79eUJWPsUD2BSjGhQrrw/view?usp=sharing Hyomin Kim (wave-particle interaction)], [https://drive.google.com/file/d/180iaBGrbCPf1rYy6uVZn8OsLTOFREqsD/view?usp=sharing Dong Lin (LFM simulations)]<br />
*4. General ULF wave modeling: [https://drive.google.com/file/d/10gUKitjDPnbV_g9r9CAHDFeE365wUQQd/view?usp=sharing Yaireska Collado-Vega (vortex identification/surface waves)], [https://drive.google.com/file/d/1kkGlYKoYHr7XZf5nT3kaXITUD3tpNynJ/view?usp=sharing Alex Degeling (ULF wave radiation belt interactions)] <br />
*5. Research highlights (1-slide): Rualdo Soto (Van Allen Probes and Cluster satellites’ observations of Pc 5 (mHz) magnetic pulsations), [https://drive.google.com/file/d/1V_Joz3psBQbCBoVKRYaOKdKIEoZ72WgQ/view?usp=sharing Xueling Shi (SuperDARN ULF waves)], Martin Archer (magnetopause surface eigenmodes), [https://drive.google.com/file/d/1Mmi3VfERKswG3dpYidVUgOQra2UG-9s2/view?usp=sharing Martin Archer (sonification)]<br />
<br />
== 2019 GEM meeting schedule ==<br />
<br />
UMEA will hold [https://drive.google.com/file/d/1KmH9XqxrisGH_g4s0ny7QDkutmv7tKlr/view?usp=sharing six sessions] at the 2019 GEM meeting, four joint with other focus groups. <br />
<br />
'''Recent advances in ULF wave research: Modeling''': 3:30-5:00, Monday, June 24 New Mexico room, joint with MMV. <br />
Discussion of advances in ULF wave research, with focus on modeling and modeling challenges (e.g., boundary conditions, grid resolution, missing physics). This includes models of the effects of ULF waves on inner magnetosphere dynamics and wave-particle interactions. We particularly encourage presentations focused on the ULF wave modeling challenge, including data-model comparisons for the 27-28 May 2017 challenge event.<br />
*Mike Hartinger, [https://drive.google.com/open?id=1Drkq9epsQWY4AjpV1EF-8Ci_kaKyN2jk FG updates]<br />
*Jesper Gjerloev, SuperMAG ULF updates<br />
*Tetsuo Motoba, High-time resolution SuperMAG ULF data products<br />
*Lutz Rastaetter, ULF wave modeling challenge<br />
*Maulik Patel, MHD test particle simulations of the 16 July 2017 shock compression of the dayside magnetopause <br />
*Bob McPherron, Pi 2 pulsations during the storm of May 27-29 2017, The Statistics of Pi 2 Pulsation Occurrence during a Major Magnetic Storm<br />
*Dong Lin, LFM simulations of surface waves during challenge event<br />
<br />
'''The ULF response to dayside transients with different temporal/spatial scales''': 10:30-12:00, Wednesday, June 26 Santa Fe room, discussion leader: Tom Elsden, joint with Dayside Kinetics and IHMIC. <br />
Dayside transient phenomena associated with kinetic scale processes cause a variety of ULF wave behaviour in the magnetosphere and further, contribute to significant magnetospheric asymmetries. The aim of this session is to bring together the expertise of the three focus groups listed above, to answer outstanding questions at the overlap of these disciplines. It is hoped that such a discussion should prove fruitful enough to generate a JGR commentary paper in this area. With this in mind, speakers in this session are encouraged to give their views as to the current state of the subject area, and how outstanding problems may be addressed in the future.<br />
* Tom Elsden - Session introduction and goals<br />
* Ferdinand Plaschke (invited) - An overview of dayside transients causing ULF waves<br />
* Tom Elsden - 3D ULF wave modeling with MHD<br />
* Boyi Wang - The role of magnetosheath high-speed jets in triggering magnetospheric Pc5 ULF waves<br />
* Bob Lysak - Ionospheric asymmetries and quarter-wave modes<br />
* Xueling Shi - Conjugate Observations of ULF Waves during an Extended Period of Radial IMF<br />
* Michael Hartinger - Localized magnetopause surface wave activity and [https://drive.google.com/open?id=1d8lDB-FPGa6VErL37aZz3xZSgpNvxbk0 modeling challenges]<br />
* Discussion<br />
<br />
'''ULF wave modeling challenges associated with Magnetosphere-Ionosphere-Thermosphere Coupling''': 3:30-5:00, Wednesday, June 26 Lumpkins Ballroon South, joint with IEMIT, discussion leader Doga Ozturk. <br />
ULF waves play important roles in M-I-T coupling, driving current systems that can lead to I-T system heating and geomagnetically induced currents. This session aims to bring together researchers from the ULF wave and M-I-T coupling research communities to discuss challenges associated with realistically modeling M-I-T coupling processes associated with these waves. The session will begin with a discussion of the ULF wave challenge event; comparisons between modeled / observed (PFISR) conductivities and modeled/observed ULF wave properties will be presented, and the community will be invited to discuss explanations for model/observation differences. The rest of the session is open for short presentations on ULF wave modeling challenges related to M-I-T coupling, including topics such as specifying conductivity and effect of conductivity on wave properties, effect of ionospheric boundary conditions in global simulations, boundary conditions and feedback between magnetosphere and ionosphere, capturing role of waves in ionospheric-thermospheric heating.<br />
# (Invited) Boyi Wang: Ionospheric modulation by Pc5 ULF waves and wave structure detected by PFISR<br />
# (Invited) Xiaojia Zhang / Anton Artemyev: ULF modulation of VLF waves and precipitation<br />
# Doga Ozturk: Update from GEM/CEDAR joint session, [https://drive.google.com/open?id=1WsSf4PFHiBo_iZ3za-bhUWKHFJd4MNQX ULF Wave activity and Meso-Scale electric field variability at high-latitude I-T system]<br />
# Anatoly Streltsov: ULF waves generated by the MI interactions near the plasmapause<br />
# Mergen Alimaganbetov: ULF waves observed in space and on the ground at high and low latitudes<br />
# Mark Engebretson: [https://drive.google.com/open?id=16WbDl3rnuehoifUqFj4oMw_Tn5WhEFlU Multi-Instrument Observations of Nighttime Impulsive Magnetic Events]<br />
# Bob Lysak: Modeling ionospheric conductance and ground magnetic fields<br />
# Yan Song: ULF wave, M-I coupling and Auroral formation.<br />
<br />
[https://drive.google.com/open?id=1wGpZPk086Zs54uWGtYiRjByPmVCFnsSv '''EMIC waves''']: 10:30-12:00, Thursday, June 27 New Mexico room, joint with Radiation Belt. <br />
The generation mechanisms of Electromagnetic Ion Cyclotron (EMIC) waves, their effects on energetic electrons and ions, and their propagation through the magnetosphere-ionosphere system are challenging topics that involve multiple GEM research areas. Despite several years of observations and improved global wave statistics, there are many unresolved questions that limit further investigation, modeling and prediction of dynamical processes in the inner magnetosphere involving EMIC waves. Hence, we invite short presentations that discuss recent findings in different areas of EMIC wave research and identify observations/models most needed to address unresolved questions.<br />
*Robert Allen, Outer magnetospheric EMIC wave source regions characterized by Cluster<br />
*Sarah Vines, EMIC waves in the outer magnetosphere: Observations of an off-equator source region<br />
*Justin Lee, [https://drive.google.com/open?id=1xlJfppvWgOC_JHy6QgPpptcI3GjkYuLC EMIC wave observations by MMS] <br />
*Chao Yue, The relationship between EMIC wave properties and proton distributions based on Van Allen Probes observations<br />
*Kristine Sigsbee, Simultaneous EMIC Wave Observations During a Van Allen Probes Conjunction<br />
*Hyomin Kim, [https://drive.google.com/open?id=1UmmYHxyIcH2FfQmRnffGNnCUNjH8S5qQ Observations of Particle Loss due to Injection-Associated EMIC Waves]<br />
*Yuri Shprits, Dips in PSD and how they are related to EMIC wave scattering<br />
*Richard Denton, Electromagnetic ion cyclotron waves in the dipole magnetosphere and pitch angle scattering of sub-MeV relativistic electrons by those waves<br />
*Qianli Ma, Pitch angle scattering of radiation belt electrons due to statistical EMIC wave spectra <br />
<br />
'''Recent advances in ULF wave research: Observations and HGSO coordination for ULF wave studies''': 1:30-3:00, Thursday, June 27 New Mexico room. <br />
Discussion of recent advances in ULF wave research, with focus on observations and a general discussion of Heliophysics/Geospace System Observatory coordination for ULF wave studies. We particularly encourage presentations describing (1) past or upcoming satellite conjunctions, (2) new data analysis tools, and/or (3) instrumentation/operation modes of interest to the ULF wave research community.<br />
*Seth Claudepierre/Matina Gkioulidou (invited), [https://drive.google.com/open?id=1bjENFjvkWSjLYA_EfFuTxhCyKtVlk7c1 Van Allen Probes: End of Mission and ULF wave studies]<br />
*Tetsuo Motoba, SuperMAG ULF wave tools<br />
*Sarah Vines, Determining EMIC wave vector properties through multi-point measurements: The wave curl analysis<br />
*Aaron Breneman, [https://drive.google.com/open?id=1NHlf9I_VV6vkx9id_NL4gE6YhEsSRxkG BARREL precipitation during solar wind driven ULF wave events] <br />
*Anatoly Streltsov, Effect of the Hall conductivity on generation of ULF waves<br />
*Mohammad Barani, [https://drive.google.com/open?id=1sCMVi0pbWsggpUUnotdl-4LO_hfGGFEc Estimating the Azimuthal Mode Structure of ULF Waves Based on Multiple GOES Satellite Observations]<br />
*Kazue Takahashi, L versus time structures of ground magnetic pulsations<br />
*Chih-Ping Wang, Earthward propagation of Pi2 waves<br />
<br />
'''ULF waves driven by wave-particle interactions and instabilities''': 3:30-5:00, Thursday, June 27 Lumpkins Ballroon South, discussion leaders: Xueling Shi and Hyomin Kim. <br />
Many ULF wave modes are closely related to instabilities and wave-particle interactions inside the magnetosphere: poloidal mode waves associated with particle injections, mirror/drift-mirror modes, buoyancy waves… These waves are often discussed in different contexts and in different GEM sessions. In addition, there have been relatively few studies of modeling internally generated ULF waves. The purpose of this session is to bring together modelers and observers to discuss the underlying processes that drive/damp these waves, their impact(s) on the M-I system (ring current, radiation belt, ionosphere,…), and the models/observations needed to better understand wave dynamics.<br />
*Xuzhi Zhou (invited), Acceleration of relativistic electrons by global-scale ULF waves<br />
*Tomotsugu Yamakawa (invited), [https://drive.google.com/open?id=1PEsq7oWVeXwwXn3JvE5ZvWQIIjfXwKRB Simulation of the excitation of storm-time Pc5 ULF waves by ring current ions based on the drift-kinetic model]<br />
*Frank Toffoletto, Normal Mode Analysis of Buoyancy Waves <br />
*Peter Chi, Observations of High-m Poloidal Waves along Magnetospheric Field Lines<br />
*Mike Hartinger, [https://drive.google.com/open?id=17do2Jxy01SJPmOloBxzTPID9ZzqaPGZI Observations of wave-particle interactions using MagEIS ultra-high resolution energy channels]<br />
*Jiang Liu, Ultralow Frequency Waves Deep Inside the Inner Magnetosphere Driven by Dipolarizing Flux Bundles, and their interaction with electrons<br />
*Kyle Murphy, TBD<br />
<br />
== 2019 Mini-GEM schedule ==<br />
UMEA will hold one session at the [https://gemworkshop.org/ 2019 mini-GEM] workshop<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 8, 2019, Nevada Room<br />
<br />
'''ULF wave modeling challenge event, HGSO coordination, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge and potential 2020 GEM sessions. The next part of the session is open for ULF wave research presentations discussing the ULF wave modeling challenge event or current/upcoming observation campaigns that are particularly useful for ULF wave studies. The last part of the session will be open for 1 slide ULF wave research highlights.<br />
<br />
*Mike Hartinger, [https://drive.google.com/open?id=1eQQc07g7nCTEGNwaTGesQx4ymIU6m815 UMEA updates and proposed sessions for 2020 GEM workshop]<br />
*Dong Lin, [https://drive.google.com/open?id=1SqiD1u69eyKNzLyrtvTWbMK05L5OrkrO LFM Simulations of ULF wave modeling challenge event]<br />
*Mohammad Barani, [https://drive.google.com/open?id=1fQAossqjQ-aBuGIBhDIW6I0_WEtHdQsF High-fidelity ULF wave azimuthal mode number structure estimation using MMS magnetometer observations], [https://www.youtube.com/watch?reload=9&v=W5Vya8pCjNE&t=1s link to related presentation on YouTube]<br />
*Chih-Ping Wang, [https://drive.google.com/open?id=19ugyLwyIp4YRuLpDuzT330IdbbFppQcr Inward propagation of Pi2 wave from plasma sheet to inner magnetosphere: THEMIS-GOES conjunctions]<br />
*Walk-ins<br />
<br />
== 2020 VGEM schedule ==<br />
UMEA will hold two sessions at the [https://gemworkshop.org/ 2020 Virtual GEM] workshop<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave modeling challenge event'''<br />
(Hosted by Xueling Shi)<br />
The first part of the session is for updates on research related to the challenge event (27-29 May 2017 storm): All modeling and observation talks welcome as long as they're related to this event. The last part of the session will be for short research highlights and oral summaries of posters.<br />
<br />
*Mike Hartinger (10 minutes), [https://drive.google.com/file/d/1Z5-g7-f-iKfpuWD03WVkA3Q2Rb9mbQfe/view?usp=sharing 2020 UMEA updates and overview of challenge event] <br />
*Simone Di Matteo (15 minutes), [https://drive.google.com/file/d/1acsSyIszg95muYurOkn0RmW0btblS3Ja/view?usp=sharing On some features characterizing the plasmasphere–magnetosphere–ionosphere system during the geomagnetic storm of 27 May 2017] <br />
*Bob McPherron (15 minutes), [https://drive.google.com/file/d/1pnqs49KamZF2BLgMdaoOroktmkBNnj1c/view?usp=sharing ULF wave activity at synchronous orbit during the May 27-29, 2017 Magnetic storm]<br />
*Boyi Wang (15 minutes), Ionospheric modulation by storm-time Pc5 ULF waves and wave structure detected by PFISR-THEMIS conjunctions<br />
*Lutz Rastaetter (15 minutes), [https://drive.google.com/file/d/1H9nTOrpQHX0NEau1eSktWjWM0KYbyfnM/view?usp=sharing Idealized ULF wave modeling challenge: high-resolution runs] <br />
*Mark Engebretson (5 minutes), [https://drive.google.com/file/d/1kvWyYe52OkTB7uUmKWRDSO305Jina-Yy/view?usp=sharing Nighttime magnetic perturbation events observed in Arctic Canada: Superposed epoch analysis]<br />
*Jinxing Li (5 minutes), Electron microinjections in association with compressional ULF waves: MMS observations<br />
*Xiaojia Zhang (5 minutes), [https://drive.google.com/file/d/1fKwf0t1ohDZIxF5NPtsgGKNP0cBEqECn/view?usp=sharing Spreading of Magnetopause-Generated Ultra-Low-Frequency Perturbations and the Associated Whistler Modulation] <br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave research highlights'''<br />
These will be contributed talks with priority given to graduate students and postdocs. The rationale is that virtual GEM will not provide the same type of networking opportunities as in-person GEM, and we'd like to balance this somewhat by giving more opportunities to students/postdocs to present their work on ULF waves.<br />
<br />
All presentations are 10 minutes including discussion:<br />
*Rachel Rice, Characteristics of Kelvin-Helmholtz Waves as Observed by MMS<br />
*Dong Lin, Idealized ULF wave simulations with GAMERA-RCM model<br />
*Boyi Wang, The interaction between ions and the ULF waves driven by a foreshock transient<br />
*Jayashree Bulusu, [https://drive.google.com/file/d/1YyRAo0I7Cf4-buxhTBXLxYaTWw7GX6SZ/view?usp=sharing Investigation of Pi2s during super quiet conditions from low and mid-latitudes]<br />
*Changzhi Zhai, High-m Poloidal ULF Wave Signatures in GPS TEC Data<br />
*Simone Di Matteo, [https://drive.google.com/file/d/1yYaidiu7O4a0Z8PeQXELiyatB03hJQyX/view?usp=sharing Power Spectral Density Background Estimate and Signal Detection via the Multitaper Method] <br />
*Yixin Hao, [https://drive.google.com/file/d/1iIf5QpLE9t7IThiIPNwhCoRHrbFDoR8R/view?usp=sharing Simultaneous observations of localized and global drift resonance]<br />
*Mohammad Barani, [https://drive.google.com/file/d/1it2y8JXJzrbjmt56MWia7ffbei63gIwC/view?usp=sharing Effects of realistic mode number structure on radial diffusion estimation]<br />
<br />
== 2021 Virtual Mini-GEM schedule ==<br />
UMEA will hold one session at the Virtual Mini-GEM Worskhop.<br />
<br />
'''Time''': 12:00-14:00 US Eastern Time, Friday, January 22, 2021<br />
<br />
'''ULF wave modeling challenge event, planning for 2021 GEM meeting, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge event, including an invited talk by Naoko Takahashi. The next part of the session will be for open discussion on potential 2021 GEM sessions. The final part of the session will be open for ULF wave research highlights. <br />
*Mike Hartinger, Brief Introduction to Challenge event<br />
*Naoko Takahashi, Relative contribution of ULF waves and whistler-mode chorus to the radiation belt variation during May 2017 storm<br />
*Ian Kelley, GPS TEC response during the ULF wave challenge event<br />
*Mike Hartinger, ULF wave geoelectric fields during the challenge event<br />
*All, Planning for 2021 GEM sessions<br />
*Bob Lysak, FLRs in Jupiter's magnetosphere<br />
*Toshi Nishimura, Upcoming conjunctions for ULF wave studies<br />
*Toshi Nishimura, PFISR and all-sky imager observations of Pc5 ULF waves during substorms<br />
*Francesco Lena, Detection of Hertz Frequency Multiharmonic Field Line Resonances at Low-L (L=1.1–1.5) During Van Allen Probe Perigee Passes<br />
<br />
== 2021 VGEM schedule ==<br />
UMEA will lead four sessions at the [https://gemworkshop.org/ 2021 Virtual GEM] workshop.<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''Recent Advances in ULF Wave Research'''<br />
This session will start with a short update on the ULF wave modeling challenge. The rest of the session will be for recent advances in ULF wave research, with priority given to presentations (1) with data or modeling results related to the challenge event (27-28 May 2017) or (2) discussions of ULF wave data-model comparisons.<br />
<br />
*Schedule TBD<br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''The Future of ULF Wave Research'''<br />
This session will begin with a review of the ULF wave FG’s original goals, research topics covered in the last 5 years and related activities, and unresolved questions and research objectives. The remainder of the session is open for 1-2 slide presentations on major unresolved questions in ULF wave research. We particularly encourage presentations (1) exploring topics that could be addressed by current/future GEM FG or decadal survey white paper, (2) highlighting major questions or obstacles preventing progress in ULF wave research (e.g., missing data in a critical region, missing theory/modeling component), (3) discuss how ULF wave researchers can best take advantage of future satellite missions, ground-based infrastructure, computing advances/big data/AI, modeling/theory advances. <br />
<br />
*Schedule TBD<br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Tuesday, July 27, 2021<br />
<br />
'''ULF Wave M-I Coupling Processes'''<br />
This session is joint with the IEMIT FG. The session will begin with a review of the role of ULF waves on M-I coupling. The remainder of the session is open for 5-min presentations on ULF wave topics related to M-I coupling, e.g., auroral acceleration, particle precipitation, geomagnetic perturbations, GICs, etc. More questions and discussions will be left to the end.<br />
<br />
*Schedule TBD<br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Friday, July 30, 2021<br />
<br />
'''Coupling Between ULF Waves and Cold Plasma'''<br />
This session is joint with the Cold Plasma FG. The session will begin with a review of mechanisms that couple cold plasma populations to ULF waves by Richard Denton. The remainder of the session is for contributed presentations of 2-3 slides describing (1) recent advances in our understanding of cold plasma interactions with ULF waves and (2) outstanding questions that could be discussed in future cold plasma FG sessions.<br />
<br />
*Schedule TBD</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=FG:_ULF_Wave_Modeling,_Effects,_and_Applications&diff=5311FG: ULF Wave Modeling, Effects, and Applications2021-07-03T16:47:12Z<p>Mdhartin: </p>
<hr />
<div>''Focus Group Leaders:''<br />
* Michael Hartinger, Space Science Institute (mhartinger@spacescience.org)<br />
* Kazue Takahashi, Applied Physics Laboratory<br />
* Alexander Drozdov, UCLA<br />
* Maria Usanova, University of Colorado<br />
* Brian Kress, University of Colorado and NOAA-NCEI<br />
* Xueling Shi, Virginia Tech<br />
<br />
Focus Group term: 2016-2021<br />
<br />
Join the discussion on [https://gemworkshop.slack.com/archives/C016U8PA7TJ Slack], including discussion related to the 2020 GEM and 2021 miniGEM meetings.<br />
<br />
== Science Questions ==<br />
Our group aims to address the following broad science questions: What mechanisms excite ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in Magnetosphere-Ionosphere coupling?<br />
<br />
== Focus Group Proposal ==<br />
[http://gem.epss.ucla.edu/mediawiki/FGproposals/Hartinger-UMEA.pdf ULF Wave Modeling, Effects, and Applications (UMEA)] (December 2015)<br />
<br />
== ULF wave modeling challenge ==<br />
<br />
One part of the ULF wave modeling challenge involves running several global MHD simulation codes with identical, idealized solar wind driving conditions (sinusoidal density variation), then comparing the resulting global ULF wave properties and discussing differences in the context of differing boundary conditions, grids, etc. More details can be found here: [http://ccmc.gsfc.nasa.gov/challenges/ULF/ ULF wave modeling challenge at CCMC]<br />
<br />
Another part of the ULF wave modeling challenge involves data-model comparisons during specific events. At the 2017 GEM and mini-GEM meetings several [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing challenge events] were proposed, including two [https://drive.google.com/open?id=1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI 2017 events].<br />
<br />
We have selected the [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing 27-28 May 2017 storm event] for the ULF wave modeling challenge due to favorable solar wind coverage and availability of numerous satellites (MMS, ARASE, THEMIS, RBSP, Cluster, GOES, ...) and ground-based observations for global context and multi-point wave observations. We will be continuously updating this [https://drive.google.com/file/d/1P74jht54VbCMF0OlUrm6dd8cyDcweSdd/view?usp=sharing overview presentation] with observation and modeling results. Model output and observations for the challenge event - including global densities from the NURD model - can be obtained [https://drive.google.com/drive/folders/1Bk9vJtbEHd-vSuYqr3UG9NGCqaBn69hw?usp=sharing here]. If you would like to add additional observations/model output to the google drive or overview pdf, please contact the co-chairs.<br />
<br />
CCMC has run several global MHD simulation codes using the driving conditions of the ULF wave challenge event. At the 2019 GEM meeting and future GEM/mini-GEM meetings, we plan data-model comparisons to identify where model/data don't agree and discuss these differences in the context of incorrect boundary conditions (e.g., compare model ionosphere to local PFISR-derived conductivities), missing physics, numerical dissipation, etc. Please contact CCMC/Lutz Rastaetter and model developers before using this simulation output in publications:<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_SWMF_040319_1 Space Weather Modeling Framework simulation], IMF Bx=0 (other parameters as in event). Full 2-day event, 3D output every 15s, virtual ground magnetometer. If you haven't used CCMC visualization tools before, be aware that you shouldn’t submit multiple visualization requests at the same time, as this could crash CCMC server for these large 3D files. Instead, request a batch process or wait for the first visualization request to complete. The easiest/fastest visualization is to follow the link above and scroll down until you see the virtual ground magnetometer and satellites list. Click on the magnetometer/satellite of interest, then select which parameter(s) to display/download. <br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_1 OpenGGCM run 1] – IMF Bx = -7 nT. Smaller time range available on 28 May 0400-1000, only virtual ground magnetometer from POKR/CMO available now. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_1 Full results including virtual satellite.]<br />
<br />
*[http://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=PP&runnumber=ULFEvent_OpenGGCM_20190520_PP_2 Open GGCM run 2] – IMF Bx = 0 nT (as in SWMF simulation). Same format as other OpenGGCM simulation. [https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_OpenGGCM_051519_2 Full results including virtual satellite.]<br />
<br />
*[https://ccmc.gsfc.nasa.gov/results/viewrun.php?domain=GM&runnumber=ULFEVENT_LFM_051519_2 LFM simulation]<br />
<br />
== ULF wave HGSO event coordination ==<br />
Our group is helping coordinate analysis of conjunction events for ULF wave studies, including requesting instrument operation modes favorable for ULF wave analysis.<br />
<br />
The [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] 0400-0800 UT conjunction event includes several satellites (THEMIS, Cluster, Van Allen Probes, GOES, Geotail, FIREBIRD, METOP, POES, DMSP) in the pre-midnight sector during a conjunction with the Poker Flat Incoherent Scatter Radar and several SuperDARN radars. PFISR was operating throughout the conjunction, several SuperDARN radars were in high resolution sampling modes, and several satellites were operating in fast survey/burst mode. The conjunction is favorable for modeling and observation studies of magnetosphere-ionosphere coupling via ULF waves, wave-particle interactions, global ULF wave properties, and many other topics. [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing This pdf] summarizes preliminary results<br />
<br />
Several web-based tools are available for identifying future conjunctions, including [https://ergsc.isee.nagoya-u.ac.jp/analysis/index.shtml.en upcoming conjunctions between ARASE and Van Allen Probes/ground] and conjunctions between [https://swarm-aurora.com/conjunctionFinder/ SWARM/all-sky cameras].<br />
<br />
'''There are also many specialized, web-based tools for ULF wave analysis (please contact FG co-chairs to add to this list):'''<br />
<br />
*SuperMAG ground-based magnetometer [http://supermag.jhuapl.edu/rBrowse/?start=2001-01-30T05%3A00%3A00.000Z&step=14400 global ULF wave plots]<br />
<br />
*CARISMA ground-based magnetometer [http://www.carisma.ca/carisma-data/fgm-pc1-power-spectra Pc1 power spectra] and [http://www.carisma.ca/carisma-data/fgm-pc5-power-spectra Pc5 power spectra]<br />
<br />
*Augsburg College/UNH Arctic and Antarctic [http://space.augsburg.edu/searchcoil/index.html search coil magnetometer survey plots] <br />
<br />
*Augsburg College (hosted by ViRBO) [http://virbo.org/Augsburg/ULF ULF wave index]<br />
<br />
*[http://vt.superdarn.org/tiki-index.php?page=DaViT+DynFFT SuperDARN wave analysis] and [http://vt.superdarn.org/tiki-index.php?page=Data+Inventory identification of high time-resolution SuperDARN beams]<br />
<br />
*THEMIS satellite fluxgate magnetometer [http://themis.ssl.berkeley.edu/summary.php?year=2014&month=05&day=11&hour=0024&sumType=thmfgmdyn&type=themislinfgl wave survey plots]<br />
<br />
*National Institute of Polar Research inter-hemispheric comparisons of Syowa/Iceland [http://iugonet0.nipr.ac.jp/web/induction/ induction magnetometer spectra]<br />
<br />
*[http://mist.nianet.org/Satellite_Conjunctions/ Inter-hemispheric comparisons] during satellite conjunctions with Arctic(DTU Space)/Antarctic(Virginia Tech) magnetometers<br />
<br />
*[http://kho.unis.no/uaf_msp.htm Meridian Scanning Photometer plots] from [http://kho.unis.no/ UNIS/Kjell Henriksen Observatory], for context on open-closed boundary and ULF modulation of the aurora<br />
<br />
== Summary Reports for GEM workshops ==<br />
[https://drive.google.com/file/d/1QLH8FcKm3-f25aLwoetOuYJGZu5sPgN3/view?usp=sharing 2016 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1SRIv6Gn-NNnqGPHGvjvZQcdDml2GQpv_/view?usp=sharing 2017 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1clzFHWrxC9hvYf9kECJx4bPn9xn8WwsG/view?usp=sharing 2018 UMEA FG report]<br />
<br />
[https://drive.google.com/file/d/1_fLwZFCLBTBHnq8HkaFPWUvaIY81E-t0/view?usp=sharing 2019 UMEA FG report]<br />
<br />
== 2016 Mini-GEM schedule ==<br />
UMEA will hold one session at the [http://www.cpe.vt.edu/gem-mini/ mini-GEM workshop]: ULF wave modeling, effects and applications updates<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 11, 2016<br />
<br />
'''Location''': Oregon Room, Holiday Inn Golden Gateway<br />
<br />
'''Schedule:'''<br />
<br />
'''First Half (12:00 – 12:45): 3 talks (~15 min each):'''<br />
<br />
*1. Mike Hartinger -- [http://gem.epss.ucla.edu/mediawikiwiki/images/7/7c/UMEAoverview_miniGEM2016.pdf Overview of UMEA current activities, discussion of future plans]<br />
<br />
*2. Lutz Rastaetter -- ULF wave modeling challenge at CCMC<br />
<br />
*3. Robert Rankin -- Modeling the global properties and ground-based signatures of ULF waves and wave-particle interactions<br />
<br />
'''Second Half (12:45 – 13:30): (5 minutes each, 1-2 slides, order of talks may change):'''<br />
<br />
*1. Xueling Shi -- SuperDARN THEMIS Mode Data Tracker & ULF Wave Detection<br />
<br />
*2. Richard Denton -- Mass density inferred from Alfven wave frequencies measured by RBSP<br />
<br />
*3. Lars Daldorff -- ULF waves, particle transport and energization in global MHD simulations with plasmasphere<br />
<br />
*4. Alexander Drozdov -- Dependence of radiation belt simulations to assumed radial diffusion rates tested for two empirical models of radial transport<br />
<br />
*5. Bob Lysak -- Quarter Wavelength Modes<br />
<br />
*6. Walk-ins<br />
<br />
== 2017 GEM meeting schedule ==<br />
UMEA will hold four sessions session at the 2017 GEM meeting<br />
<br />
'''UMEA Update and plans, general discussion of ULF wave modeling and observations''': 10:30-12:15, Monday, June 19, Port VI-VIII<br />
<br />
*1. Michael Hartinger -- [https://drive.google.com/file/d/0B57bC_V89WW6dnBCbmFFSkFURUk/view?usp=sharing UMEA update]<br />
<br />
*2. Toshi Nishimura -- PFISR measurements during the 2 May 2017 HGSO event<br />
<br />
*3. Xueling Shi -- [https://drive.google.com/file/d/0B57bC_V89WW6OUcyNGNWM0piWnc/view?usp=sharing A Survey of Ionospheric ULF Wave Signatures in SuperDARN Data: Occurrence Statistics and Driving Mechanisms]<br />
<br />
*4. Tetsuo Motoba -- Dayside Auroral Pulsations<br />
<br />
*5. Brian Kress and Rob Redmon -- Newly Available GOES 8-16 Particle and Magnetic Field Measurements<br />
<br />
*6. Dick Wolf -- Theory of magnetospheric buoyancy waves<br />
<br />
<br />
'''ULF wave interactions with the radiation belt and ring current populations''': 1:30-3:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Rualdo Soto-Chavez -- Generation of Pc5-ULF wave by the drift-mirror instability<br />
<br />
*2. Zhiyang Xia -- [https://drive.google.com/file/d/0B57bC_V89WW6Y1VQRXJKd3Qya3c/view?usp=sharing Eigenmode analysis of compressional poloidal modes in a self-consistent magnetic field]<br />
<br />
*3. Mark Engebretson -- [https://drive.google.com/file/d/0B57bC_V89WW6QlM3LU9lTVVwZ1E/view?usp=sharing Statistical study of the upper frequency cutoff of helium band EMIC waves observed by the Van Allen Probes]<br />
<br />
*4. Alexander Drozdov -- Radial diffusion and EMIC waves in the long-term simulation and in the case study<br />
<br />
*5. Seth Claudepierre -- Global MHD simulations driven by idealized Alfvenic fluctuations in the solar wind<br />
<br />
*6. Michael Hartinger -- Radiation belt response to large scale, monochromatic ULF waves: LANL-GEO observations<br />
<br />
<br />
'''ULF wave modeling, including CCMC modeling challenge, Joint with MMV''': 3:30-5:00, Monday, June 19, Port VI-VIII<br />
<br />
*1. Lutz Rastaetter -- CCMC ULF wave modeling challenge update and challenge events<br />
<br />
*2. Scot Elkington -- [https://drive.google.com/file/d/0B57bC_V89WW6WUxJcGNqbUU2bzA/view?usp=sharing ULF wave activity and diffusion coefficients during QARBM challenge events], [https://drive.google.com/file/d/0B3MAHZknMumcem40dTVyNVRFbE0/view?usp=sharing Ashar F. Ali’s write-up on Event-Specific Radial Diffusion Coefficients Derived Using RBSP EMFISIS and EFW Data]<br />
<br />
*3. Katariina Nykyri -- KHI challenge events<br />
<br />
*4. All -- Open Discussion of Challenge Events<br />
<br />
*5. Doga Ozturk -- Effects of Increased Solar Wind Dynamic Pressure on the Coupled M-I system under different IMF By<br />
<br />
*6. Kazue Takahashi -- Cavity mode Van Allen Probe observations<br />
<br />
*7. Bob Lysak -- Cavity mode models<br />
<br />
*8. Tom Elsden -- [https://drive.google.com/file/d/0B57bC_V89WW6SDNnYjdwSVM3Y3c/view?usp=sharing The Theoretical Foundation of 3D Alfven Resonances: Time Dependent Solutions]<br />
<br />
<br />
'''Magnetosphere-Ionosphere coupling processes associated with localized disturbances caused by dayside kinetic phenomena: Joint with “Dayside Kinetic Processes…” and “Testing proposed links…”''': 3:30-5:00, Tuesday, June 20, Port VI-VIII<br />
<br />
*1. Peter Chi -- Magnetospheric and ionospheric responses to a localized disturbance: The macroscopic view<br />
<br />
*2. Hui Zhang -- Magnetospheric ULF waves generated by foreshock transients<br />
<br />
*3. Hui Zhang -- Modeling challenges in simulating HFA geoeffects<br />
<br />
*4. Boyi Wang -- Optical signatures of dayside ULF waves during magnetosheath high-speed jets<br />
<br />
*5. Katariina Nykyri -- The effect of magnetosheath seed spectrum on KH evolution and associated mass transport<br />
<br />
*6. Kyle Murphy -- A statistical study of discrete ULF wave power observed by GOES<br />
<br />
== 2017 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2017 mini-GEM] workshop<br />
<br />
'''Time''': 12:00-13:30, Sunday, December 10, 2017, Canal/50<br />
<br />
'''ULF wave modeling challenges'''<br />
Discussion of final plans for the CCMC ULF wave modeling challenge with idealized drivers, as well as open discussion of new challenges involving data-model and model-model comparisons during [https://drive.google.com/file/d/0B57bC_V89WW6TFNDdXRNOTdqS00/view?usp=sharing specific events]. Please come with 1-2 slides showing examples of such comparisons, ideas for improving ULF wave models, and/or ideas for specific modeling challenges/sessions relevant to the FG science questions.<br />
<br />
*1. 12:00-12:30 Overview of CCMC ULF wave modeling challenge with idealized driving conditions, description of challenge events and targets proposed during 2017 GEM meeting and November modeling telecon (Michael Hartinger, Lutz Rastaetter)<br />
*2. 12:30-13:30 [https://drive.google.com/file/d/1PwRj4EELS66SM2FGqgj7eqRSn4UyPkzI/view?usp=sharing Open discussion of challenge events and targets (Allison Jaynes,] Robert Rankin), select challenge event to be analyzed at 2018 GEM<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 10, 2017, Canal/50<br />
<br />
'''Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
Discussion of HGSO coordination for ULF wave studies. This includes updates on the [https://drive.google.com/a/vt.edu/file/d/0B57bC_V89WW6N0tsdjl1Q1pENEE/view?usp=sharing 2 May 2017] conjunction event followed by an open discussion of conjunctions and datasets that are particularly useful for ULF wave studies, including upcoming RBSP-ERG-ground conjunctions. Please come with 1-2 slides showing examples of datasets and past/upcoming conjunctions ideal for addressing the FG science questions: What excites ULF waves? How do ULF waves couple to the plasmasphere/ring current/radiation belt populations? What is the role of ULF waves in MI coupling? We welcome discussion from both modelers and observers of the types of conjunctions and observations that are most needed to address these questions.<br />
<br />
*1. 13:50-14:20 Recently available datasets and conjunctions for ULF wave studies (Chih-Ping Wang, Xueling Shi, Sana Qamar, Rob Redmon)<br />
*2. 14:20-14:35 Updates on 2 May 2017 conjunction event (Toshi Nishimura, Michael Hartinger)<br />
*3. 14:35-15:20 Upcoming ARASE-RBSP conjunctions (Yoshi Miyoshi), Open Discussion of HGSO coordination for ULF wave studies (Toshi Nishimura, Kazue Takahashi)<br />
<br />
== 2018 GEM meeting schedule ==<br />
UMEA will hold [https://drive.google.com/file/d/1uh-ZOICfOBzNs9KLe3saFMnY9P-oqV9R/view?usp=sharing four sessions] at the 2018 GEM meeting. <br />
<br />
'''ULF waves during particle injections and dipolarizations, joint with Dipolarization and Substorm FG''': 10:30-12:00, Monday, June 18<br />
<br />
*1. Discussion of Session Topic<br />
<br />
*2. Bob Lysak -- [https://drive.google.com/file/d/1w8o5aGYbLsIEy2YmaoosF3WNeWTuLE59/view?usp=sharing Ionospheric Conductivity Effects on Pi2 Pulsations]<br />
<br />
*3. Mike Hartinger -- [https://drive.google.com/file/d/1tcJgspMQDkhPPvSTng4eZP7h-j7jvVR7/view?usp=sharing Pi2 waves during an extended period with stable plasmapause location and variable geomagnetic activity]<br />
<br />
*4. Toshi Nishimura -- Ionosphere observations of Pc5 ULF waves during 2018 HGSO conjunctions<br />
<br />
*5. Xueling Shi -- Long-lasting poloidal ULF waves observed by multiple satellite and SuperDARN HF radars<br />
<br />
*6. Jian Yang -- New RCM-I simulation results for buoyancy waves<br />
<br />
*7. Dick Wolf -- [https://drive.google.com/file/d/1vTkH_lmgXCcvkAYU6HgO_R5ZgIdGji3O/view?usp=sharing Theory of Buoyancy Waves] <br />
<br />
*8. Yan Song -- What Causes the Substorm Expansion Phase and Associated ULF Waves?<br />
<br />
<br />
'''Recent advances in ULF wave research''': 1:30-3:00, Monday, June 18 <br />
<br />
*1. [https://drive.google.com/file/d/1ms9kDYlBhCnxti8z9o9Lx8y0PPmkWu_-/view?usp=sharing Overview of focus group goals and recent progress]<br />
<br />
*2. Brief ULF wave poster overviews (Tuesday posters)<br />
<br />
*3. Kazue Takahashi -- Observation of nightside ULF waves by RBSP and Arase<br />
<br />
*4. Tom Elsden -- Broadband Excitation of 3D Alfven Resonances (FLRs) in an MHD Waveguide<br />
<br />
*5. Boyi Wang -- 2-D structure of foreshock driven Pc5 ULF waves observed by the THEMIS satellites and South Pole imager<br />
<br />
*6. Xiaochen Shen -- Foreshock transient-driven ultra-low frequency (ULF) waves with dawn-dusk asymmetry of wave power<br />
<br />
*7. Chih-Ping Wang -- ULF waves possibly driven by tailward propagation of foreshock perturbations<br />
<br />
*8. Allison Jaynes -- [https://drive.google.com/file/d/1EC3yPvda8fA0LUr9qTfszluNDLs6LdHT/view?usp=sharing Fast diffusion of ultra-relativistic electrons in the outer radiation belt: 17 March 2015 storm event]<br />
<br />
*9. Rualdo Soto -- The Drift-Mirror instability in Earth's inner magnetosphere<br />
<br />
*10. Martin Archer/Mike Hartinger -- [https://drive.google.com/file/d/1t4fmiiZP9wdJ-40TISEC7BuicEd64m7W/view?usp=sharing Results from Sonification and Citizen Science of Magnetospheric ULF waves]<br />
<br />
<br />
'''EMIC wave generation, propagation, and interactions''': 3:30-5:00, Monday, June 18 (discussion leaders: Alexander Drozdov and Maria Usanova)<br />
[https://drive.google.com/open?id=15rjO2UxK8sqdOfHXunDSLv5q-z51vwuD Session Summary]<br />
<br />
*1. Dedong Wang -- EMIC wave observations from Van Allen Probes and MMS<br />
<br />
*2. Mark Engebretson -- [https://drive.google.com/file/d/1jkhN45ezaeQyeAA7HmVuYOF_izjAMYra/view?usp=sharing Van Allen Probes, and ground based magnetometer observations of EMIC waves associated with a modest interplanetary shock]<br />
<br />
*3. Maria Usanova -- MMS Observations of Harmonic Electromagnetic Cyclotron Waves<br />
<br />
*4. Naritoshi Kitamura -- Direct measurements of energy transfer from hot H+ to EMIC waves by MMS<br />
<br />
*5. Bruce Fritz -- ELF Whistler Dependence on a Sunlit Ionosphere<br />
<br />
*6. Chae-Woo Jun -- EMIC waves associated with/without the injection inside/outside the plasmapause<br />
<br />
*7. Hyomin Kim -- Injection-associated EMIC waves<br />
<br />
*8. Sebastian Cervantes -- EMIC wave parameterization in radiation belt reanalysis<br />
<br />
*9. Maria Usanova -- Long-term correlation of EMIC wave activity and radiation belt flux variations<br />
<br />
*10. Alexander Drozdov -- The effects due to the EMIC waves in the VERB code modeling<br />
<br />
<br />
'''ULF wave modeling challenge, joint with MMV FG''': 3:30-5:00, Wednesday, June 20<br />
<br />
*1. Brief ULF wave poster overviews (Thursday posters)<br />
<br />
*2. Mike Hartinger: [https://drive.google.com/file/d/1g2cL_qaDbASLH5DoJ_auJKQCbG96sdQn/view?usp=sharing ULF wave modeling challenge event overview, discussion of challenge targets (continuing during session)]<br />
<br />
*3. Mariko Teramoto: ARASE ULF wave observations during challenge event<br />
<br />
*4. Sam Califf: [https://drive.google.com/file/d/1CvbVG2Dp8e6RokJE0501L8-LU9ipdUFT/view?usp=sharing GOES-14 and 16 observations during the ULF wave challenge event, Data Discussion]<br />
<br />
*5. Toshi Nishimura: [https://drive.google.com/file/d/1cavbwNU4LoAigIsGvGF_UtiTaM97dFtP/view?usp=sharing PFISR measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*6. Dogacan Su Ozturk: [https://drive.google.com/file/d/1MmP3D_4eeJbEVJzUyx8fAtFsG3b0grzy/view?usp=sharing The modeling study of the 27 March 2017 Event] <br />
<br />
*7. Xiaochen Shen: GEM Challenge Event: ULF wave-related electron and proton precipitation/negative dynamic pressure pulse driven EMIC wave<br />
<br />
*8. Tetsuo Motoba: [https://drive.google.com/file/d/1544ngYBXat-zUC1gZqo0lMVUZtYqxUqH/view?usp=sharing Auroral measurements of the 27-28 May 2017 ULF waves]<br />
<br />
*9. Others discuss when their figures/summary plots in event overview pdf are presented…<br />
<br />
== 2018 Mini-GEM schedule ==<br />
UMEA will hold two sessions at the [http://www.cpe.vt.edu/gem-mini/ 2018 mini-GEM] workshop<br />
<br />
'''Time''': 13:50-15:20, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF modulation of the aurora, Heliophysics/Geospace system observatory coordination for ULF wave studies'''<br />
This session focuses on understanding a variety of mechanisms responsible for ULF modulations of the aurora. Eric Donovan will give a 30 minute invited presentation, with the rest of the session open for presentations and discussion on this topic. We welcome discussion of ULF aurora generation mechanisms and the types of conjunctions, observations, and models needed to understand the zoo of ULF auroral modulations. We also welcome discussion of upcoming observation campaigns/satellite conjunctions that would be particularly useful for ULF wave studies.<br />
<br />
*1. Eric Donovan<br />
*2. Tetsuo Motoba<br />
*3. Slava Pilipenko<br />
*4. Boyi Wang / Toshi Nishimura<br />
*5. Open discussion<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 9, 2018, Salon C<br />
<br />
'''ULF wave modeling challenge and research highlights'''<br />
The first part of the session is for updates on the idealized ULF wave modeling challenge and potential 2019 GEM sessions. The next part of the session is for observation/model presentations relevant to the 27-28 May 2017 ULF wave challenge event and final selection of the modeling challenge targets – all types of models and observations welcome. The last part of the session will be open for 1 slide ULF wave modeling and observation research highlights. <br />
<br />
*1. [https://drive.google.com/file/d/1vqxxn3gYXfzDKABe9yRwMgR8vbKRua_j/view?usp=sharing 2019 GEM session ideas] (Mike Hartinger)<br />
*2. Idealized Modeling Challenge (Lutz Rastaetter)<br />
*3. ULF wave modeling challenge event updates: Rob Redmon/Sam Califf/Mike Hartinger (GOES magnetometer observations), Yoshi Miyoshi (Arase magnetic field observations), [https://drive.google.com/file/d/1B6DGHvAzUhBG79eUJWPsUD2BSjGhQrrw/view?usp=sharing Hyomin Kim (wave-particle interaction)], [https://drive.google.com/file/d/180iaBGrbCPf1rYy6uVZn8OsLTOFREqsD/view?usp=sharing Dong Lin (LFM simulations)]<br />
*4. General ULF wave modeling: [https://drive.google.com/file/d/10gUKitjDPnbV_g9r9CAHDFeE365wUQQd/view?usp=sharing Yaireska Collado-Vega (vortex identification/surface waves)], [https://drive.google.com/file/d/1kkGlYKoYHr7XZf5nT3kaXITUD3tpNynJ/view?usp=sharing Alex Degeling (ULF wave radiation belt interactions)] <br />
*5. Research highlights (1-slide): Rualdo Soto (Van Allen Probes and Cluster satellites’ observations of Pc 5 (mHz) magnetic pulsations), [https://drive.google.com/file/d/1V_Joz3psBQbCBoVKRYaOKdKIEoZ72WgQ/view?usp=sharing Xueling Shi (SuperDARN ULF waves)], Martin Archer (magnetopause surface eigenmodes), [https://drive.google.com/file/d/1Mmi3VfERKswG3dpYidVUgOQra2UG-9s2/view?usp=sharing Martin Archer (sonification)]<br />
<br />
== 2019 GEM meeting schedule ==<br />
<br />
UMEA will hold [https://drive.google.com/file/d/1KmH9XqxrisGH_g4s0ny7QDkutmv7tKlr/view?usp=sharing six sessions] at the 2019 GEM meeting, four joint with other focus groups. <br />
<br />
'''Recent advances in ULF wave research: Modeling''': 3:30-5:00, Monday, June 24 New Mexico room, joint with MMV. <br />
Discussion of advances in ULF wave research, with focus on modeling and modeling challenges (e.g., boundary conditions, grid resolution, missing physics). This includes models of the effects of ULF waves on inner magnetosphere dynamics and wave-particle interactions. We particularly encourage presentations focused on the ULF wave modeling challenge, including data-model comparisons for the 27-28 May 2017 challenge event.<br />
*Mike Hartinger, [https://drive.google.com/open?id=1Drkq9epsQWY4AjpV1EF-8Ci_kaKyN2jk FG updates]<br />
*Jesper Gjerloev, SuperMAG ULF updates<br />
*Tetsuo Motoba, High-time resolution SuperMAG ULF data products<br />
*Lutz Rastaetter, ULF wave modeling challenge<br />
*Maulik Patel, MHD test particle simulations of the 16 July 2017 shock compression of the dayside magnetopause <br />
*Bob McPherron, Pi 2 pulsations during the storm of May 27-29 2017, The Statistics of Pi 2 Pulsation Occurrence during a Major Magnetic Storm<br />
*Dong Lin, LFM simulations of surface waves during challenge event<br />
<br />
'''The ULF response to dayside transients with different temporal/spatial scales''': 10:30-12:00, Wednesday, June 26 Santa Fe room, discussion leader: Tom Elsden, joint with Dayside Kinetics and IHMIC. <br />
Dayside transient phenomena associated with kinetic scale processes cause a variety of ULF wave behaviour in the magnetosphere and further, contribute to significant magnetospheric asymmetries. The aim of this session is to bring together the expertise of the three focus groups listed above, to answer outstanding questions at the overlap of these disciplines. It is hoped that such a discussion should prove fruitful enough to generate a JGR commentary paper in this area. With this in mind, speakers in this session are encouraged to give their views as to the current state of the subject area, and how outstanding problems may be addressed in the future.<br />
* Tom Elsden - Session introduction and goals<br />
* Ferdinand Plaschke (invited) - An overview of dayside transients causing ULF waves<br />
* Tom Elsden - 3D ULF wave modeling with MHD<br />
* Boyi Wang - The role of magnetosheath high-speed jets in triggering magnetospheric Pc5 ULF waves<br />
* Bob Lysak - Ionospheric asymmetries and quarter-wave modes<br />
* Xueling Shi - Conjugate Observations of ULF Waves during an Extended Period of Radial IMF<br />
* Michael Hartinger - Localized magnetopause surface wave activity and [https://drive.google.com/open?id=1d8lDB-FPGa6VErL37aZz3xZSgpNvxbk0 modeling challenges]<br />
* Discussion<br />
<br />
'''ULF wave modeling challenges associated with Magnetosphere-Ionosphere-Thermosphere Coupling''': 3:30-5:00, Wednesday, June 26 Lumpkins Ballroon South, joint with IEMIT, discussion leader Doga Ozturk. <br />
ULF waves play important roles in M-I-T coupling, driving current systems that can lead to I-T system heating and geomagnetically induced currents. This session aims to bring together researchers from the ULF wave and M-I-T coupling research communities to discuss challenges associated with realistically modeling M-I-T coupling processes associated with these waves. The session will begin with a discussion of the ULF wave challenge event; comparisons between modeled / observed (PFISR) conductivities and modeled/observed ULF wave properties will be presented, and the community will be invited to discuss explanations for model/observation differences. The rest of the session is open for short presentations on ULF wave modeling challenges related to M-I-T coupling, including topics such as specifying conductivity and effect of conductivity on wave properties, effect of ionospheric boundary conditions in global simulations, boundary conditions and feedback between magnetosphere and ionosphere, capturing role of waves in ionospheric-thermospheric heating.<br />
# (Invited) Boyi Wang: Ionospheric modulation by Pc5 ULF waves and wave structure detected by PFISR<br />
# (Invited) Xiaojia Zhang / Anton Artemyev: ULF modulation of VLF waves and precipitation<br />
# Doga Ozturk: Update from GEM/CEDAR joint session, [https://drive.google.com/open?id=1WsSf4PFHiBo_iZ3za-bhUWKHFJd4MNQX ULF Wave activity and Meso-Scale electric field variability at high-latitude I-T system]<br />
# Anatoly Streltsov: ULF waves generated by the MI interactions near the plasmapause<br />
# Mergen Alimaganbetov: ULF waves observed in space and on the ground at high and low latitudes<br />
# Mark Engebretson: [https://drive.google.com/open?id=16WbDl3rnuehoifUqFj4oMw_Tn5WhEFlU Multi-Instrument Observations of Nighttime Impulsive Magnetic Events]<br />
# Bob Lysak: Modeling ionospheric conductance and ground magnetic fields<br />
# Yan Song: ULF wave, M-I coupling and Auroral formation.<br />
<br />
[https://drive.google.com/open?id=1wGpZPk086Zs54uWGtYiRjByPmVCFnsSv '''EMIC waves''']: 10:30-12:00, Thursday, June 27 New Mexico room, joint with Radiation Belt. <br />
The generation mechanisms of Electromagnetic Ion Cyclotron (EMIC) waves, their effects on energetic electrons and ions, and their propagation through the magnetosphere-ionosphere system are challenging topics that involve multiple GEM research areas. Despite several years of observations and improved global wave statistics, there are many unresolved questions that limit further investigation, modeling and prediction of dynamical processes in the inner magnetosphere involving EMIC waves. Hence, we invite short presentations that discuss recent findings in different areas of EMIC wave research and identify observations/models most needed to address unresolved questions.<br />
*Robert Allen, Outer magnetospheric EMIC wave source regions characterized by Cluster<br />
*Sarah Vines, EMIC waves in the outer magnetosphere: Observations of an off-equator source region<br />
*Justin Lee, [https://drive.google.com/open?id=1xlJfppvWgOC_JHy6QgPpptcI3GjkYuLC EMIC wave observations by MMS] <br />
*Chao Yue, The relationship between EMIC wave properties and proton distributions based on Van Allen Probes observations<br />
*Kristine Sigsbee, Simultaneous EMIC Wave Observations During a Van Allen Probes Conjunction<br />
*Hyomin Kim, [https://drive.google.com/open?id=1UmmYHxyIcH2FfQmRnffGNnCUNjH8S5qQ Observations of Particle Loss due to Injection-Associated EMIC Waves]<br />
*Yuri Shprits, Dips in PSD and how they are related to EMIC wave scattering<br />
*Richard Denton, Electromagnetic ion cyclotron waves in the dipole magnetosphere and pitch angle scattering of sub-MeV relativistic electrons by those waves<br />
*Qianli Ma, Pitch angle scattering of radiation belt electrons due to statistical EMIC wave spectra <br />
<br />
'''Recent advances in ULF wave research: Observations and HGSO coordination for ULF wave studies''': 1:30-3:00, Thursday, June 27 New Mexico room. <br />
Discussion of recent advances in ULF wave research, with focus on observations and a general discussion of Heliophysics/Geospace System Observatory coordination for ULF wave studies. We particularly encourage presentations describing (1) past or upcoming satellite conjunctions, (2) new data analysis tools, and/or (3) instrumentation/operation modes of interest to the ULF wave research community.<br />
*Seth Claudepierre/Matina Gkioulidou (invited), [https://drive.google.com/open?id=1bjENFjvkWSjLYA_EfFuTxhCyKtVlk7c1 Van Allen Probes: End of Mission and ULF wave studies]<br />
*Tetsuo Motoba, SuperMAG ULF wave tools<br />
*Sarah Vines, Determining EMIC wave vector properties through multi-point measurements: The wave curl analysis<br />
*Aaron Breneman, [https://drive.google.com/open?id=1NHlf9I_VV6vkx9id_NL4gE6YhEsSRxkG BARREL precipitation during solar wind driven ULF wave events] <br />
*Anatoly Streltsov, Effect of the Hall conductivity on generation of ULF waves<br />
*Mohammad Barani, [https://drive.google.com/open?id=1sCMVi0pbWsggpUUnotdl-4LO_hfGGFEc Estimating the Azimuthal Mode Structure of ULF Waves Based on Multiple GOES Satellite Observations]<br />
*Kazue Takahashi, L versus time structures of ground magnetic pulsations<br />
*Chih-Ping Wang, Earthward propagation of Pi2 waves<br />
<br />
'''ULF waves driven by wave-particle interactions and instabilities''': 3:30-5:00, Thursday, June 27 Lumpkins Ballroon South, discussion leaders: Xueling Shi and Hyomin Kim. <br />
Many ULF wave modes are closely related to instabilities and wave-particle interactions inside the magnetosphere: poloidal mode waves associated with particle injections, mirror/drift-mirror modes, buoyancy waves… These waves are often discussed in different contexts and in different GEM sessions. In addition, there have been relatively few studies of modeling internally generated ULF waves. The purpose of this session is to bring together modelers and observers to discuss the underlying processes that drive/damp these waves, their impact(s) on the M-I system (ring current, radiation belt, ionosphere,…), and the models/observations needed to better understand wave dynamics.<br />
*Xuzhi Zhou (invited), Acceleration of relativistic electrons by global-scale ULF waves<br />
*Tomotsugu Yamakawa (invited), [https://drive.google.com/open?id=1PEsq7oWVeXwwXn3JvE5ZvWQIIjfXwKRB Simulation of the excitation of storm-time Pc5 ULF waves by ring current ions based on the drift-kinetic model]<br />
*Frank Toffoletto, Normal Mode Analysis of Buoyancy Waves <br />
*Peter Chi, Observations of High-m Poloidal Waves along Magnetospheric Field Lines<br />
*Mike Hartinger, [https://drive.google.com/open?id=17do2Jxy01SJPmOloBxzTPID9ZzqaPGZI Observations of wave-particle interactions using MagEIS ultra-high resolution energy channels]<br />
*Jiang Liu, Ultralow Frequency Waves Deep Inside the Inner Magnetosphere Driven by Dipolarizing Flux Bundles, and their interaction with electrons<br />
*Kyle Murphy, TBD<br />
<br />
== 2019 Mini-GEM schedule ==<br />
UMEA will hold one session at the [https://gemworkshop.org/ 2019 mini-GEM] workshop<br />
<br />
'''Time''': 15:30-17:00, Sunday, December 8, 2019, Nevada Room<br />
<br />
'''ULF wave modeling challenge event, HGSO coordination, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge and potential 2020 GEM sessions. The next part of the session is open for ULF wave research presentations discussing the ULF wave modeling challenge event or current/upcoming observation campaigns that are particularly useful for ULF wave studies. The last part of the session will be open for 1 slide ULF wave research highlights.<br />
<br />
*Mike Hartinger, [https://drive.google.com/open?id=1eQQc07g7nCTEGNwaTGesQx4ymIU6m815 UMEA updates and proposed sessions for 2020 GEM workshop]<br />
*Dong Lin, [https://drive.google.com/open?id=1SqiD1u69eyKNzLyrtvTWbMK05L5OrkrO LFM Simulations of ULF wave modeling challenge event]<br />
*Mohammad Barani, [https://drive.google.com/open?id=1fQAossqjQ-aBuGIBhDIW6I0_WEtHdQsF High-fidelity ULF wave azimuthal mode number structure estimation using MMS magnetometer observations], [https://www.youtube.com/watch?reload=9&v=W5Vya8pCjNE&t=1s link to related presentation on YouTube]<br />
*Chih-Ping Wang, [https://drive.google.com/open?id=19ugyLwyIp4YRuLpDuzT330IdbbFppQcr Inward propagation of Pi2 wave from plasma sheet to inner magnetosphere: THEMIS-GOES conjunctions]<br />
*Walk-ins<br />
<br />
== 2020 VGEM schedule ==<br />
UMEA will hold two sessions at the [https://gemworkshop.org/ 2020 Virtual GEM] workshop<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave modeling challenge event'''<br />
(Hosted by Xueling Shi)<br />
The first part of the session is for updates on research related to the challenge event (27-29 May 2017 storm): All modeling and observation talks welcome as long as they're related to this event. The last part of the session will be for short research highlights and oral summaries of posters.<br />
<br />
*Mike Hartinger (10 minutes), [https://drive.google.com/file/d/1Z5-g7-f-iKfpuWD03WVkA3Q2Rb9mbQfe/view?usp=sharing 2020 UMEA updates and overview of challenge event] <br />
*Simone Di Matteo (15 minutes), [https://drive.google.com/file/d/1acsSyIszg95muYurOkn0RmW0btblS3Ja/view?usp=sharing On some features characterizing the plasmasphere–magnetosphere–ionosphere system during the geomagnetic storm of 27 May 2017] <br />
*Bob McPherron (15 minutes), [https://drive.google.com/file/d/1pnqs49KamZF2BLgMdaoOroktmkBNnj1c/view?usp=sharing ULF wave activity at synchronous orbit during the May 27-29, 2017 Magnetic storm]<br />
*Boyi Wang (15 minutes), Ionospheric modulation by storm-time Pc5 ULF waves and wave structure detected by PFISR-THEMIS conjunctions<br />
*Lutz Rastaetter (15 minutes), [https://drive.google.com/file/d/1H9nTOrpQHX0NEau1eSktWjWM0KYbyfnM/view?usp=sharing Idealized ULF wave modeling challenge: high-resolution runs] <br />
*Mark Engebretson (5 minutes), [https://drive.google.com/file/d/1kvWyYe52OkTB7uUmKWRDSO305Jina-Yy/view?usp=sharing Nighttime magnetic perturbation events observed in Arctic Canada: Superposed epoch analysis]<br />
*Jinxing Li (5 minutes), Electron microinjections in association with compressional ULF waves: MMS observations<br />
*Xiaojia Zhang (5 minutes), [https://drive.google.com/file/d/1fKwf0t1ohDZIxF5NPtsgGKNP0cBEqECn/view?usp=sharing Spreading of Magnetopause-Generated Ultra-Low-Frequency Perturbations and the Associated Whistler Modulation] <br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Wednesday, July 22, 2020<br />
<br />
'''ULF wave research highlights'''<br />
These will be contributed talks with priority given to graduate students and postdocs. The rationale is that virtual GEM will not provide the same type of networking opportunities as in-person GEM, and we'd like to balance this somewhat by giving more opportunities to students/postdocs to present their work on ULF waves.<br />
<br />
All presentations are 10 minutes including discussion:<br />
*Rachel Rice, Characteristics of Kelvin-Helmholtz Waves as Observed by MMS<br />
*Dong Lin, Idealized ULF wave simulations with GAMERA-RCM model<br />
*Boyi Wang, The interaction between ions and the ULF waves driven by a foreshock transient<br />
*Jayashree Bulusu, [https://drive.google.com/file/d/1YyRAo0I7Cf4-buxhTBXLxYaTWw7GX6SZ/view?usp=sharing Investigation of Pi2s during super quiet conditions from low and mid-latitudes]<br />
*Changzhi Zhai, High-m Poloidal ULF Wave Signatures in GPS TEC Data<br />
*Simone Di Matteo, [https://drive.google.com/file/d/1yYaidiu7O4a0Z8PeQXELiyatB03hJQyX/view?usp=sharing Power Spectral Density Background Estimate and Signal Detection via the Multitaper Method] <br />
*Yixin Hao, [https://drive.google.com/file/d/1iIf5QpLE9t7IThiIPNwhCoRHrbFDoR8R/view?usp=sharing Simultaneous observations of localized and global drift resonance]<br />
*Mohammad Barani, [https://drive.google.com/file/d/1it2y8JXJzrbjmt56MWia7ffbei63gIwC/view?usp=sharing Effects of realistic mode number structure on radial diffusion estimation]<br />
<br />
== 2021 Virtual Mini-GEM schedule ==<br />
UMEA will hold one session at the Virtual Mini-GEM Worskhop.<br />
<br />
'''Time''': 12:00-14:00 US Eastern Time, Friday, January 22, 2021<br />
<br />
'''ULF wave modeling challenge event, planning for 2021 GEM meeting, and research highlights'''<br />
The first part of the session is for updates on the ULF wave modeling challenge event, including an invited talk by Naoko Takahashi. The next part of the session will be for open discussion on potential 2021 GEM sessions. The final part of the session will be open for ULF wave research highlights. <br />
*Mike Hartinger, Brief Introduction to Challenge event<br />
*Naoko Takahashi, Relative contribution of ULF waves and whistler-mode chorus to the radiation belt variation during May 2017 storm<br />
*Ian Kelley, GPS TEC response during the ULF wave challenge event<br />
*Mike Hartinger, ULF wave geoelectric fields during the challenge event<br />
*All, Planning for 2021 GEM sessions<br />
*Bob Lysak, FLRs in Jupiter's magnetosphere<br />
*Toshi Nishimura, Upcoming conjunctions for ULF wave studies<br />
*Toshi Nishimura, PFISR and all-sky imager observations of Pc5 ULF waves during substorms<br />
*Francesco Lena, Detection of Hertz Frequency Multiharmonic Field Line Resonances at Low-L (L=1.1–1.5) During Van Allen Probe Perigee Passes<br />
<br />
== 2021 VGEM schedule ==<br />
UMEA will lead four sessions at the [https://gemworkshop.org/ 2021 Virtual GEM] workshop.<br />
<br />
'''Time''': 13:00-14:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''Recent Advances in ULF Wave Research'''<br />
This session will start with a short update on the ULF wave modeling challenge. The rest of the session will be for recent advances in ULF wave research, with priority given to presentations (1) with data or modeling results related to the challenge event (27-28 May 2017) or (2) discussions of ULF wave data-model comparisons.<br />
<br />
*Schedule TBD<br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Monday, July 26, 2021<br />
<br />
'''The Future of ULF Wave Research'''<br />
This session will begin with a review of the ULF wave FG’s original goals, research topics covered in the last 5 years and related activities, and unresolved questions and research objectives. The remainder of the session is open for 1-2 slide presentations (strictly enforced) on major unresolved questions in ULF wave research. We particularly encourage presentations (1) exploring topics that could be addressed by current/future GEM FG or decadal survey white paper, (2) highlighting major questions or obstacles preventing progress in ULF wave research (e.g., missing data in a critical region, missing theory/modeling component), (3) discuss how ULF wave researchers can best take advantage of future satellite missions, ground-based infrastructure, computing advances (big data/AI), modeling/theory advances. <br />
<br />
*Schedule TBD<br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Tuesday, July 27, 2021<br />
<br />
'''ULF Wave M-I Coupling Processes'''<br />
This session is joint with the IEMIT FG. The session will begin with a review of the role of ULF waves on M-I coupling. The remainder of the session is open for 5-min presentations on ULF wave topics related to M-I coupling, e.g., auroral acceleration, particle precipitation, geomagnetic perturbations, GICs, etc. More questions and discussions will be left to the end.<br />
<br />
*Schedule TBD<br />
<br />
'''Time''': 15:00-16:30 US Eastern Time, Friday, July 30, 2021<br />
<br />
'''Coupling Between ULF Waves and Cold Plasma'''<br />
This session is joint with the Cold Plasma FG. The session will begin with a review of mechanisms that couple cold plasma populations to ULF waves by Richard Denton. The remainder of the session is for contributed presentations of 2-3 slides describing (1) recent advances in our understanding of cold plasma interactions with ULF waves and (2) outstanding questions that could be discussed in future cold plasma FG sessions.<br />
<br />
*Schedule TBD</div>Mdhartinhttps://gem.epss.ucla.edu/mediawiki/index.php?title=US_Ground-based_magnetometer_arrays&diff=5256US Ground-based magnetometer arrays2021-02-11T18:37:00Z<p>Mdhartin: /* 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research */</p>
<hr />
<div>=== US Ground Magnetometer Board ===<br />
<br />
This wiki page and related ground magnetometer board meetings are part of a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts. For more information about the current state and future of ground magnetometer networks in support of space weather monitoring and research, see this article in [https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017SW001718 Space Weather]. <br />
<br />
''Current Ground Magnetometer Board Members:''<br />
* Peter Chi<br />
* Mark Engebretson, (former chair)<br />
* Jennifer Gannon<br />
* Jesper Gjerloev<br />
* Michael Hartinger, (current chair, mhartinger@spacescience.org)<br />
* Hyomin Kim<br />
* Gang Lu<br />
* Josh Rigler<br />
* Michelle Salzano<br />
* Howard Singer<br />
* Endawoke Yizengaw<br />
<br />
''Former Ground Magnetometer Board Members:''<br />
* Carol Finn<br />
* Efthyia Zesta<br />
<br />
=== US-Sponsored Ground-Based Magnetometer Arrays and Programs* ===<br />
<br />
{| class="wikitable" style="width: 50%; height: 4em;"<br />
|-<br />
| Array || Location || Instruments || Manufacturer || No. of Locations<br />
|-<br />
| AAL-PIP || Antarctica || Fluxgate || Lviv Centre ISR || 6<br />
|-<br />
| AAL-PIP || Antarctica || Induction Coil || UNH || 4<br />
|-<br />
| AMBER || Africa || Fluxgate || UCLA || 7<br />
|-<br />
| AMBER || South America || Fluxgate || UCLA || 2<br />
|-<br />
| AMBER || East Asia || Fluxgate || UCLA || 4<br />
|-<br />
| Falcon || Continental US || Fluxgate || UCLA || 11<br />
|-<br />
| GIMA || Alaska || Fluxgate || Narod || 9<br />
|-<br />
| Jicamarca || South America || Fluxgate || UCLA || 2<br />
|-<br />
| LISN || South America || Fluxgate || Custom/Jicamarca || 6<br />
|-<br />
| MACCS || Arctic Canada || Fluxgate || Narod || 8<br />
|-<br />
| McMAC || Continental US & Mexico || Fluxgate || UCLA || 9<br />
|-<br />
| MEASURE || Continental US || Fluxgate || UCLA || 6<br />
|-<br />
| SAMBA || South America & Antarctica || Fluxgate || UCLA || 12<br />
|-<br />
| THEMIS || Continental US & Canada || Fluxgate || UCLA || 24<br />
|-<br />
| US Geological Survey || US & Territories || Fluxgate || Narod, Technical Univ of Denmark || 11<br />
|-<br />
| NJIT / AGO || Antarctica || Fluxgate || Bell Labs || 7<br />
|-<br />
| NJIT / AGO || Antarctica || Induction Coil || Tohoku University || 5<br />
|-<br />
| MICA || Antarctica || Induction Coil || UNH || 5<br />
|-<br />
| MICA || Arctic Canada || Induction Coil || UNH || 4<br />
|-<br />
| MICA || Svalbard || Induction Coil || UNH || 4<br />
|}<br />
<br />
*Some locations listed here have instruments that are not currently operating.<br />
<br />
=== Ground Magnetometer Data ===<br />
<br />
[http://supermag.jhuapl.edu/ SuperMAG]<br />
<br />
[https://www.usgs.gov/natural-hazards/geomagnetism/data-tools USGS Geomagnetism Program]<br />
<br />
[https://www.intermagnet.org/ INTERMAGNET]<br />
<br />
[http://vmo.igpp.ucla.edu/data1/SECS/Quicklook/ Spherical Elementary Currents] from James Weygand<br />
<br />
[http://themis.ssl.berkeley.edu/gmag/gmag_list.php?selyear=4000&selmonth=13&smap=on&sinfo=on&saelist=on&ae=on THEMIS]<br />
<br />
[https://cdaweb.gsfc.nasa.gov/index.html/ NASA CDAWeb]<br />
<br />
[http://mirl.unh.edu/ulf_status.html UNH Magnetic Induction Coil Array (MICA)]<br />
<br />
[http://search.iugonet.org/list.jsp IUGONET]<br />
<br />
=== Digital Object Identifiers for Ground Magnetometer Data ===<br />
<br />
Digital Object Identifiers (DOI) allow authors to cite data products just as they refer to papers. This is becoming a requirement of many journals, as it assures that the specific data used in a publication are findable and accessible. The DOI provides a permanent identifier (PID) for the data, remaining unchanged even if the data are moved to another archive. The "creators" (authors) of the data must link the DOI to a "landing page" that provides details about the data and methods for accessing them. Our group recommends that each ground magnetometer network generate DOIs for their datasets, at minimum one DOI for their original measurements (i.e., before filtering and other types of processing are performed).<br />
<br />
As a member of the [https://datacite.org DataCite organization], NASA Heliophysics (HP) can "mint" DOIs for ground magnetometer datasets. NASA HP is providing an easy means to assign DOIs to datasets using the HP Digital Resource Registry (HDRR) by providing landing pages for datasets based on their "SPASE" resource descriptions. As an example, any users of NASA's OMNI dataset can now use https://doi.org/10.48322/1shr-ht18 for the hourly dataset, and other DOIs for other sets, discoverable by a search with the Heliophysics Data Portal (HDP; https://heliophysicsdata.gsfc.nasa.gov; look for "omni" in the "observatory" entry at the left). More details for DOI initiation for resources in the HDP can be found [https://hpde.gsfc.nasa.gov/DOI_Initiative_October_2020.pdf here]. For further information, and especially to start the process of registering DOIs, contact James Weygand (jweygand@igpp.ucla.edu or jweygand@epss.ucla.edu).<br />
<br />
As noted above, a SPASE resource description is required for each magnetometer dataset to mint a DOI. Here's an example for the [https://drive.google.com/file/d/1MxEDFAa_grGuCdID9vwK9pRzkzH7FQYR/view?usp=sharing MACCS magnetometer network 5s measurements].<br />
<br />
== 2019 GEM workshop meeting ==<br />
<br />
The ground magnetometer advisory board was formed in 2016 as a community driven effort to (1) review operations/status/performance of all US-funded ground magnetometer arrays, (2) discuss priorities for future ground magnetometer locations in consultation with the wider community including USGS/ULTIMA/NSF, (3) transition towards a Class-II facility/DASI operations model as recommended by the 2015-2016 NSF Geospace Portfolio Review, (4) facilitate the production and dissemination of high level data products that support scientific investigations, spacecraft missions, modeling efforts, and space weather forecasts.<br />
<br />
We invite the GEM community to attend our meeting on Monday, June 24 at 1:30 PM, where we’ll discuss updates on all the above items. Later this year, we’ll add new members to the advisory board who either operate ground magnetometers or use magnetometer data to support their scientific investigations and/or space weather monitoring efforts. If you’re interested in learning more about this opportunity, please attend this GEM meeting or contact Mike Hartinger (mdhartin@vt.edu).<br />
<br />
Monday, 24 June, 1:30 PM, Location: Santa Fe<br />
*Mike Hartinger - Updates on ground magnetometer advisory board activities<br />
*Mark Engebretson - Summary of information gathering report<br />
*Lisa Winter - NSF updates<br />
*Hyomin Kim - DRUM/DASI updates and future plans, discussion<br />
*Jesper Gjerloev - SuperMAG updates<br />
*Josh Rigler - USGS updates, updates from other magnetometer arrays<br />
<br />
== 2019 mini-GEM workshop meeting ==<br />
<br />
Sunday, 8 December, 1200-1330, Location: Oregon Room<br />
*Mike Hartinger - [https://drive.google.com/file/d/1f3nDkQU4Red2gBLe_I5z_z0LOTHRyfN8/view?usp=sharing Introduction and Overview of Advisory Board activities, updates on DOI and new instruments]<br />
*Howard Singer - [https://drive.google.com/file/d/16poHzPvIM60z9Z7E_qXHznRGL80cjRRY/view?usp=sharing How ground magnetometers are currently incorporated into forecasts at SWPC, how they could be incorporated in the future]<br />
*Jennifer Gannon - How ground magnetometers can best be used to monitor/investigate GIC, utility-grade magnetometers<br />
*Endawoke Yizengaw - Open discussion with NSF, DRUM/DASI future proposal plans<br />
*Anna Kelbert - [https://drive.google.com/open?id=1XFHxruhasIRvZ3JDGtVtExZE6d87tM0X USGS Geomagnetism Program updates]<br />
*Peter Chi - update on ULTIMA activities / international collaboration<br />
*James Weygand - [https://drive.google.com/open?id=1Uq5ArdynNUk6ymbrBAcbFU9zbzH1eD3t Spherical Elementary Currents and Mid/Low Latitude Data Availability]<br />
*Walk-ins TBD (Amy Keesee/Mike Coughlin,...)<br />
<br />
<br />
== 2020 Virtual Discussion: Ground Magnetometer Measurements for Heliophysics Research and Space Weather Monitoring ==<br />
<br />
Friday, 7 August, 1500-1630 EDT<br />
<br />
[https://drive.google.com/file/d/1uQ18wVmQC9de6zGn8wXVmXHvkomQPP63/view?usp=sharing Meeting Summary and Community Feedback from Google Form]<br />
<br />
Discussion from this meeting and previous meetings was summarized in this [https://drive.google.com/file/d/1-lrglV9h7OneMK8XK0yjnPk3XhhMMMNg/view?usp=sharing Heliophysics 2050 white paper].<br />
<br />
Invited Speakers<br />
* Syau-Yun Hsieh – [https://drive.google.com/file/d/1nRB6Xjc8F4tyGDtFHSoH6Tr3Kxh8hnkq/view?usp=sharing SMILE mission ground-based support]<br />
* Enrico Camporeale – [https://drive.google.com/file/d/1JiQTM6I4q9TIcEYDlHSfWwM1nkwaLjNS/view?usp=sharing Long-term continuous magnetometer data for geomagnetic activity prediction using machine learning]<br />
* Slava Merkin – [https://drive.google.com/file/d/1-nALz_h5IUMtUPPZKGQh3KNHS-GxbBqx/view?usp=sharing What is required of global magnetosphere-ionosphere-thermosphere models to predict ground magnetic perturbations]<br />
<br />
Project Updates<br />
* Jesper Gjerloev, [https://drive.google.com/file/d/15fE4UXOXYYjACtDilek9s1DDd8h9ODho/view?usp=sharing SuperMAG]<br />
* Michelle Salzano, [https://drive.google.com/file/d/12fI2yM-q_fw-4-4cN_8Nsp3oECtohjPh/view?usp=sharing MICA]<br />
* Josh Rigler, [https://drive.google.com/file/d/1aYjQcO-56TyNB0U97bobyRVsu1D05iJo/view?usp=sharing USGS] <br />
* Jennifer Gannon, [https://drive.google.com/file/d/17KkpAGoV1OwOAsi8n6x3fTF2q6xk_CNV/view?usp=sharing MagStar]<br />
* Chuck Smith, [https://drive.google.com/file/d/1VuUgOTyFrrBxuvxmdbJoVgYeyEmAUgIw/view?usp=sharing Space Weather Underground]<br />
* Endawoke Yizengaw, iMAGS<br />
* Peter Chi, [https://drive.google.com/file/d/1CX26PkNjz_8mFhrmqX14ZxE1m8eO-Rw3/view?usp=sharing SMART]<br />
* Mark Moldwin, [https://drive.google.com/file/d/1zrSgS7iImyWW7rlXWtqheU4gWOLUS3LW/view?usp=sharing New Ground Mag and TEC/GPS system]<br />
* Mark Engebretson, [https://drive.google.com/file/d/1thUuT5pZqMjWI4xR5ytT8IvXSRpBl72c/view?usp=sharing MACCS]<br />
* Don Hampton, [https://drive.google.com/file/d/1DQyBge17GT9r7Vjvjp5LYXio9yGUkLnU/view?usp=sharing GIMA]<br />
* Hyomin Kim, AGO<br />
* Mike Hartinger, [https://drive.google.com/file/d/1OArNCvEEsFdXwi7qmz9_WNQskhcRqBGW/view?usp=sharing AALPIP]<br />
<br />
== 2021 Virtual Discussion: Applications of Ground Magnetometer Measurements to Geophysics Research ==<br />
<br />
Thursday, 4 February, 1100-1230 US Eastern Time<br />
<br />
This virtual meeting will begin with an invited talk from Gary Egbert on current/future applications of ground magnetometers to geophysics research, including magnetotellurics research relevant to Heliophysics/GIC. This continues a series of discussions intended to gather feedback for the upcoming Heliophysics Decadal Survey.<br />
<br />
The rest of the meeting will be for updates from SuperMAG and individual magnetometer networks, NSF announcements, and discussion of magnetometer digital object identifiers.<br />
<br />
[https://drive.google.com/file/d/17j5ulGzACn6jZDZoxah-YXdV8LKHw4Py/view?usp=sharing Meeting notes and summary]<br />
<br />
[https://agu.confex.com/agu/fm20/meetingapp.cgi/Paper/685551 Link] to Gary Egbert's 2020 AGU presentation, "Modeling Diurnal Variation Magnetic Fields for Mantle Induction Studies"<br />
<br />
* 1100-1105 Mike Hartinger, [https://drive.google.com/file/d/1FQUYC_Q0F3I97RAYrOsCN_piy9cu8OcG/view?usp=sharing Introduction and Updates on Digital Object Identifiers]<br />
* 1105-1125 Gary Egbert, [https://drive.google.com/file/d/1fvp4QiW5BpPxtlmopLaPxKp-x9SUX2Wx/view?usp=sharing Current and Future Applications of Ground Magnetometers to Geophysics Research]<br />
* 1125-1135 Jennifer Gannon, [https://drive.google.com/file/d/1AL3NasABl5eDSE-Gh71-MTcR8BuG-PpH/view?usp=sharing MagStar]<br />
* 1135-1145 Josh Rigler / Anna Kelbert, USGS Updates<br />
* 1145-1155 Whitham Reeve, [https://drive.google.com/file/d/1TUetaa2wE7W_b2-h0v3q287B0h6F8LzA/view?usp=sharing SAM-III]<br />
* 1155-1205 Rob Barnes / Matt Potter, [https://drive.google.com/file/d/1xXunj9lafw2m5C3AdDBHi6ZqTPpU-Jtf/view?usp=sharing SuperMAG Updates]<br />
* 1205-1215 [https://drive.google.com/file/d/1YDZB7mhG8rZS5EqzRIax4AvCL2wmm6q7/view?usp=sharing Collaboration tools and NSF opportunities]<br />
* 1215-1230 Additional Brief Project Updates: [https://drive.google.com/file/d/1R-SetUGvFfZyA0emtZtOxZ3WbjXXF2BN/view?usp=sharing MICA], [https://drive.google.com/file/d/1Z62YCvAGkvF2lJmHLAJOG3qtlFvYs09P/view?usp=sharing MACCS], [https://drive.google.com/file/d/1THwB7Cq0K5hhPhY_3BRh9R724FwXssD-/view?usp=sharing NJIT], [https://drive.google.com/file/d/17XYtKyofyw_1uRc1T69K2l7Qxiiccyau/view?usp=sharing AALPIP]</div>Mdhartin