Difference between revisions of "2022 GEM Workshop"

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=== 1030-1200 HST: Concurrent Session 1 ===
 
=== 1030-1200 HST: Concurrent Session 1 ===
 
* Joint Session IHMIC/CEDAR
 
* Joint Session IHMIC/CEDAR
* MESO - Mesoscale drivers of the nightside transition region: Ionospheric and magnetotail evaluations
+
* DIP - Magnetotail Dipolarization and Its Effects on the Inner Magnetosphere
 
* Machine Learning as it pertains in the Geospace Environment
 
* Machine Learning as it pertains in the Geospace Environment
 +
 +
 +
====DIP - Magnetotail Dipolarization and Its Effects on the Inner Magnetosphere====
 +
Models have shown that BBFs/DFBs/Mesoscale Injections are important for both ring current and radiation belt build-up, but it remains difficult to verify with observations and therefore the exact role remains an open question. Model results are inconclusive because existing models do not describe all the relevant domains (e.g., magnetotail, transition region, inner magnetosphere) self-consistently while capturing the required range of spatiotemporal scales. We therefore ask, How is plasma and electromagnetic energy transported through the plasma sheet to the inner magnetosphere at different spatiotemporal scales?
 +
Especially given the upcoming Decadal Survey, we want to use a designated session to discuss the following:
 +
* What do we currently know from models?
 +
* What are the limitations of the current models?
 +
* What modeling advances are required and feasible to resolve these limitations in the near- and long-term future (e.g., 5-10 years vs 10-30 years)?
 +
* What do we currently know from observations?
 +
* What can we still learn from existing observations and what are their limitations that inhibit further progress?
 +
* What new observations are required and feasible to resolve these limitations in the near- and long-term future?
 +
 +
'''Discussion Leaders/Speakers (Contact the DIP FG leaders if you want to participate as well!)'''
 +
*Andrei Runov
 +
*Trunali Anil Shah
 +
*Soboh Alqeeq
 +
*Slava Merkin
  
 
=== 1330-1500 HST: Concurrent Session 2 ===
 
=== 1330-1500 HST: Concurrent Session 2 ===

Revision as of 08:51, 10 June 2022

Schedule

Below is a high-level session schedule for the 2022 GEM Summer Workshop, provided by the Focus Group Leaders and Research Area Coordinators. For the most up to date workshop information, please refer to the GEM Workshop Website.

Please also refer to the GEM Focus Groups, Modeling Methods Methods and Validation Resource Group, and Machine Learning in Geospace pages for more information.

Contents

Sunday, June 19

Student Day

Student Day is on June 19th (Sunday), 2022, and aims to introduce the students to the GEM workshop. You may find more information at the GEM Student Forum page.

Monday, June 20

0800-1000 HST: Plenary Session

  • Opening Remarks - Vania Jordanova
  • GSM Tutorial - John Dorelli
  • IMAG Tutorial - Michael Liemohn: Hidden Gems of Inner Magnetospheric Research

1030-1200 HST: Concurrent Session 1

  • SCIMM - Self-Consistent Inner Magnetospheric Modeling
  • Joint Session IEMIT/CEDAR
  • Joint Session GIC/GBMA

1330-1500 HST: Concurrent Session 2

  • SCIMM - Self-Consistent Inner Magnetospheric Modeling
  • MPEC - Magnetospheric sources of particle precipitation and their role on electrodynamic coupling of magnetosphere-ionosphere-thermosphere systems
  • Joint Session MESO/CEDAR

1530-1700 HST: SBCCI - Speaking Up (Bystander intervention training)

1800-2030 HST: Student Dinner

Tuesday, June 21

0800-1000 HST: Agency Talks

  • NSF - Lisa Winter, Chia-Lin Huang
  • NASA - Patrick Koehn
  • NOAA - Howard Singer: NOAA Liaison Report: Highlights of Activities
  • AFRL - Shawn Young

1030-1200 HST: Concurrent Session 1

  • MPEC - Magnetospheric sources of particle precipitation and their role on electrodynamic coupling of magnetosphere-ionosphere-thermosphere systems
  • DIP - Magnetotail Dipolarization and Its Effects on the Inner Magnetosphere
  • RB - System Understanding of Radiation Belt Particle Dynamics through Multi-spacecraft and Ground-based Observations and Modeling

DIP - Magnetotail Dipolarization and Its Effects on the Inner Magnetosphere

Models have shown that BBFs/DFBs/Mesoscale Injections are important for both ring current and radiation belt build-up, but it remains difficult to verify with observations and therefore the exact role remains an open question. Model results are inconclusive because existing models do not describe all the relevant domains (e.g., magnetotail, transition region, inner magnetosphere) self-consistently while capturing the required range of spatiotemporal scales. We therefore ask, How is plasma and electromagnetic energy transported through the plasma sheet to the inner magnetosphere at different spatiotemporal scales?

In this session, we will discuss the perennial question, What is the role of reconnection and/or other plasma instabilities in producing elementary magnetotail dipolarizations? How do the physical properties of the dipolarizations depend on their spatial location and the time of their appearance relative to the Dungey cycle?

Speakers

  • Toshi Nishimura (work presented by Christine Gabrielse): Kinetic Plasma Structures Associated with Substorm Auroral Beads by Space-Ground Coordinated Observations
  • Shin Ohtani (work presented by Jesper Gjerloev): New Insights into the Substorm Initiation Sequence from the Spatio-temporal Development of Auroral Electrojets

Upload Talks here: https://vgem.org/groups/DIP

1200-1330 HST: Student Rep Candidate Presentations

1330-1500 HST: Concurrent Session 2

  • GIC - Understanding the causes of geomagnetic disturbances in geospce for hazard analysis on geomagnetically induced currents slack link
  • DIP - Magnetotail Dipolarization and Its Effects on the Inner Magnetosphere
  • RB - System Understanding of Radiation Belt Particle Dynamics through Multi-spacecraft and Ground-based Observations and Modeling

1530-1700 HST: Concurrent Session 3

  • GIC - Understanding the causes of geomagnetic disturbances in geospce for hazard analysis on geomagnetically induced currents slack link
  • RB - System Understanding of Radiation Belt Particle Dynamics through Multi-spacecraft and Ground-based Observations and Modeling

1800-2030 HST: Poster Session

Wednesday, June 22

0800-1000 HST: Plenary Session

  • MIC Tutorial - Kevin Pham
  • SBCCI-DEI Tutorial - Caroline Blanco, David Boboltz, Claire Raftery

1030-1200 HST: Concurrent Session 1

  • RB - System Understanding of Radiation Belt Particle Dynamics through Multi-spacecraft and Ground-based Observations and Modeling
  • IEMIT - 3D Ionospheric Electrodynamics and its Impact on MIT Coupling
  • MMV - Modeling Methods and Validation

1200-1330 HST: GEMEE Lunch

1330-1500 HST: Concurrent Session 2

  • Joint Session SCIMM/MPEC
  • RX - Magnetic Reconnection in the Age of the Heliophysics System Observatory
  • MMV - Modeling Methods and Validation

1530-1700 HST: Concurrent Session 3

  • Joint Session RB/CP/SCIMM/MPEC
  • RX - Magnetic Reconnection in the Age of the Heliophysics System Observatory
  • MMV - Modeling Methods and Validation

1800-2030 HST: Banquet

Thursday, June 23

0800-1000 HST: Plenary Session

  • SWMI Tutorial - Joe Borovsky
  • MPS Tutorial - Katariina Nykyri

1030-1200 HST: Concurrent Session 1

  • Joint Session IHMIC/CEDAR
  • DIP - Magnetotail Dipolarization and Its Effects on the Inner Magnetosphere
  • Machine Learning as it pertains in the Geospace Environment


DIP - Magnetotail Dipolarization and Its Effects on the Inner Magnetosphere

Models have shown that BBFs/DFBs/Mesoscale Injections are important for both ring current and radiation belt build-up, but it remains difficult to verify with observations and therefore the exact role remains an open question. Model results are inconclusive because existing models do not describe all the relevant domains (e.g., magnetotail, transition region, inner magnetosphere) self-consistently while capturing the required range of spatiotemporal scales. We therefore ask, How is plasma and electromagnetic energy transported through the plasma sheet to the inner magnetosphere at different spatiotemporal scales? Especially given the upcoming Decadal Survey, we want to use a designated session to discuss the following:

  • What do we currently know from models?
  • What are the limitations of the current models?
  • What modeling advances are required and feasible to resolve these limitations in the near- and long-term future (e.g., 5-10 years vs 10-30 years)?
  • What do we currently know from observations?
  • What can we still learn from existing observations and what are their limitations that inhibit further progress?
  • What new observations are required and feasible to resolve these limitations in the near- and long-term future?

Discussion Leaders/Speakers (Contact the DIP FG leaders if you want to participate as well!)

  • Andrei Runov
  • Trunali Anil Shah
  • Soboh Alqeeq
  • Slava Merkin

1330-1500 HST: Concurrent Session 2

  • Joint Session MPEC/IEMIT
  • CP - The Impact of the Cold Plasma in the Magnetospheric Physics
  • Machine Learning as it pertains in the Geospace Environment

1530-1700 HST: Concurrent Session 3

  • Joint Session IHMIC/IEMIT
  • RX - Magnetic Reconnection in the Age of the Heliophysics System Observatory
  • CP - The Impact of the Cold Plasma in the Magnetospheric Physics

1800-2030 HST: Poster Session

Late: SBCCI - Queer Beers

Friday, June 24

0800-1000 HST: Plenary Session

  • Student Tutorial - Robert Allen: Heliophysics missions and instrumentation: Past progress towards future implementations
  • MMV Tutorial - KD Leka: Here, There, or Everywhere? Validation and Evaluation in Solar and Heliospheric (SHINE) Science
  • Closing Remarks - Vania Jordanova

1030-1200 HST: Concurrent Session 1

  • BSH - Particle Heating and Thermalization in Collisionless Shocks in the MMS Era
  • Joint Session IHMIC/GIC
  • Joint Session MESO/DIP

1330-1500 HST: Concurrent Session 2

  • BSH - Particle Heating and Thermalization in Collisionless Shocks in the MMS Era
  • Joint Session GIC/IEMIT
  • Machine Learning as it pertains in the Geospace Environment

1500 HST: SBCCI - Social/Sam Bingham memorial

1630 HST: GEM SC meeting

1700 HST: HON magnetic observatory

Saturday, June 25

0830-1200 HST: GEM-SHINE

  • 08:30 - Tracking SEPs from the Sun to the near-Earth Space
  • 10:00 - Break
  • 10:30 - Shocks

1830-2000 HST: GEM-SHINE Student Joint Event

Sunday, June 26

0830-1200 HST: GEM-SHINE

  • 08:30 - How does the solar-wind/magnetosphere coupling change in different types of solar wind?
  • 10:00 - Break
  • 10:30 - Structured magnetotail BBFs and structured coronal supra-arcade downflows