Difference between revisions of "FG: System Understanding of Radiation Belt Particle Dynamics through Multi-spacecraft and Ground-based Observations and Modeling"
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== Focus Group Chairs == | == Focus Group Chairs == | ||
− | Hong Zhao, | + | Hong Zhao, Auburn University (zzh0054@auburn.edu) |
− | Lauren Blum, | + | Lauren Blum, University of Colorado Boulder (Lauren.Blum@lasp.colorado.edu) |
Sasha Ukhorskiy, JHU/APL (sasha.ukhorskiy@jhuapl.edu) | Sasha Ukhorskiy, JHU/APL (sasha.ukhorskiy@jhuapl.edu) | ||
Xiangrong Fu, New Mexico Consortium (sfu@newmexicoconsortium.org) | Xiangrong Fu, New Mexico Consortium (sfu@newmexicoconsortium.org) | ||
− | |||
== Focus Group Science Topic == | == Focus Group Science Topic == | ||
Line 41: | Line 40: | ||
The FG will organize challenges corresponding to each of the four main science questions it aims to address. We will identify a number of periods for study during which numerous conjunctive measurements are available, gather all available data, engage scientists to perform comprehensive data analysis, challenge modelers to reproduce not just single spacecraft measurements but multi-point observations to test the modeling capacity of various processes on different spatial/temporal scales, and organize the workshop-style sessions to foster more discussions on these topics. | The FG will organize challenges corresponding to each of the four main science questions it aims to address. We will identify a number of periods for study during which numerous conjunctive measurements are available, gather all available data, engage scientists to perform comprehensive data analysis, challenge modelers to reproduce not just single spacecraft measurements but multi-point observations to test the modeling capacity of various processes on different spatial/temporal scales, and organize the workshop-style sessions to foster more discussions on these topics. | ||
+ | |||
+ | |||
+ | == 2024 GEM Summer Workshop == | ||
+ | |||
+ | Our FG will hold four sessions and two joint sessions with CP/SCIMM and MLGEM/CP/SCIMM FGs in the 2024 GEM Summer Workshop. The Zoom link for stand-alone sessions can be found below. | ||
+ | |||
+ | |||
+ | '''Session 1 (10:30 am - 12:00 pm, Tuesday, June 25th, Room Salon III, IV, VI): | ||
+ | |||
+ | '''Diffusive vs. non-diffusive radial transport discussion panel | ||
+ | |||
+ | Panelists: Adnane Osmane, Scot Elkington, Theodore Sarris, Mary Hudson, Weichao Tu, and Leonid Olifer | ||
+ | |||
+ | |||
+ | '''Session 2 (3:30 - 5:00 pm, Tuesday, June 25th, Room Salon III, IV, VI): | ||
+ | |||
+ | '''General contribution session | ||
+ | |||
+ | Due to the large volume of requests we received, please keep the presentation concise, within 3 minutes. Feel free to use this talk to advertise your poster and have more in-depth discussion at the NEW FG concurrent poster session. | ||
+ | |||
+ | 1. Daniel da Silva: Quantifying Adiabatic Motion in the Outer Radiation Belt and Ring Current | ||
+ | |||
+ | 2. Yang Mei: Characteristics of ubiquitous “zebra stripes” of relativistic electrons unveiled by CIRBE/REPTile-2 measurements and simulations | ||
+ | |||
+ | 3. Declan O'Brien: Observations of the Detailed Structure of Relativistic Electron Drift Echoes Using High-Energy-Resolution REPT Data | ||
+ | |||
+ | 4. Domenique Freund: MeV electron precipitation during radiation belt dropouts | ||
+ | |||
+ | 5. Zhi Gu Li: Quantifying the spatial extent of Persisting EMIC waves through the modeling of multi-point POES/MetOp observations | ||
+ | |||
+ | 6. Ruoxian Zhou: Statistical Characteristics and Origins of EMIC-Driven Relativistic Electron Precipitation | ||
+ | |||
+ | 7. Jinbei Huang: Modeling the Fast Dropout of Radiation Belt Electrons During the 31 December 2016 Storm: A Comprehensive Study | ||
+ | |||
+ | 8. Sergio Vidal-Luengo: Comparative Observations of the Outer Belt Electron Fluxes and Precipitated Relativistic Electrons | ||
+ | |||
+ | 9. Huayue Chen: Resonant Electron Signatures in the Formation of Chorus Wave Subpackets | ||
+ | |||
+ | 10. Man Hua: Upper Limit of Outer Belt Electron Acceleration and Their Controlling Geomagnetic Conditions: A Comparison of Storm and Non-Storm events | ||
+ | |||
+ | 11. Zheng Xiang: Earth-Based Transmitters Trigger Precipitation of Inner Radiation Belt Electrons: Unveiling Observations and Modeling Results | ||
+ | |||
+ | 12. Sam Walton: Investigating an Electron Flux Enhancement Event Below the Inner Radiation Belt | ||
+ | |||
+ | 13. Heejeong Kim: Combined effects of rapid Injections and higher L-region losses in radiation belt enhancements | ||
+ | |||
+ | 14. Dave Hartley: Whistler-Mode Waves in Plasmasphere-Plasmatrough Transition Regions | ||
+ | |||
+ | 15. Xinlin Li: CIRBE/REPTile-2 measurements: on EMIC wave induced precipitations and Chorus wave induced precipitations | ||
+ | |||
+ | 16. Adam Michael: Incorporating wave-particle interactions into global test particle simulations | ||
+ | |||
+ | |||
+ | '''Session 3 (10:30 am - 12:00 pm, Wednesday, June 26th, Room Salon I, II, V) | ||
+ | |||
+ | '''Focus Group concurrent poster session (NEW!) | ||
+ | |||
+ | The concurrent poster session allows participants to discuss their work in a less crowded and science-focused setting. We encourage presenters to indicate their attendance/availability both on the poster board and using the GEM App. | ||
+ | |||
+ | |||
+ | '''Session 4 (1:30 - 3:00 pm, Wednesday, June 26th, Room LEGENDS) | ||
+ | |||
+ | '''Open discussion: future of radiation belt science and exploration | ||
+ | |||
+ | |||
+ | '''Zoom link: | ||
+ | |||
+ | Topic: GEM RB FG sessions | ||
+ | |||
+ | Join from PC, Mac, Linux, iOS or Android: https://auburn.zoom.us/j/82088104592?pwd=STr4vbTH4jkblPzhaS6zCDs72zm202.1 | ||
+ | Password: RB | ||
+ | Connect using Computer/Device audio if possible. | ||
+ | |||
+ | Or Telephone: Meeting ID: 820 8810 4592 | ||
+ | Dial: +1 646 876 9923 (US Toll) | ||
+ | or +1 646 931 3860 (US Toll) | ||
+ | |||
+ | Password: 659537 | ||
+ | |||
+ | Or an H.323/SIP room system: | ||
+ | H.323: 162.255.37.11 (US West) or 162.255.36.11 (US East) | ||
+ | Meeting ID: 820 8810 4592 | ||
+ | Password: 659537 | ||
+ | |||
+ | SIP: 82088104592@zoomcrc.com | ||
+ | Password: 659537 | ||
+ | |||
+ | == 2023 mini-GEM == | ||
+ | |||
+ | Our FG will hold one hybrid session in the 2023 mini-GEM. | ||
+ | |||
+ | If you would like to present in our session, please send the title of your presentation to Hong Zhao (zzh0054@auburn.edu) by December 8. | ||
+ | |||
+ | |||
+ | '''General Contribution Session (3:30 - 5:00 pm PT, December 10, Oregon Room + Nevada Room) | ||
+ | |||
+ | David Malaspina/Dave Hartley: Whistler-Mode Wave Properties in Plasmasphere-Plasmatrough Transition Regions | ||
+ | |||
+ | Leon Olifer: Using Multipoint GPS PSD Data for Calculating Radial Diffusion Coefficients in the Outer Radiation Belt | ||
+ | |||
+ | Yang Mei: On the Energy-Dependent Deep Penetration of Radiation Belt Electrons and Protons | ||
+ | |||
+ | |||
+ | The Zoom link to join this session can be found below. | ||
+ | |||
+ | |||
+ | Topic: Mini-GEM RB FG session | ||
+ | |||
+ | Time: Dec 10, 2023 03:30 PM Pacific Time (US and Canada) | ||
+ | |||
+ | Join from PC, Mac, Linux, iOS or Android: https://auburn.zoom.us/j/88505418124?pwd=djZvbUNMV0R2R1JEZU9raEIvaS93dz09 | ||
+ | Password: RB | ||
+ | |||
+ | Connect using Computer/Device audio if possible. | ||
+ | |||
+ | Or Telephone: Meeting ID: 885 0541 8124 | ||
+ | Dial: +1 309 205 3325 (US Toll) | ||
+ | or +1 312 626 6799 (US Toll) | ||
+ | |||
+ | Password: 536321 | ||
+ | |||
+ | Or an H.323/SIP room system: | ||
+ | H.323: 162.255.37.11 (US West) or 162.255.36.11 (US East) | ||
+ | Meeting ID: 885 0541 8124 | ||
+ | Password: 536321 | ||
+ | |||
+ | SIP: 88505418124@zoomcrc.com | ||
+ | Password: 536321 | ||
+ | |||
+ | |||
+ | == 2023 GEM Summer Workshop == | ||
+ | |||
+ | Our FG will hold four sessions and two joint sessions with DIP and CPCP/DIP FGs in the 2023 GEM Summer Workshop. | ||
+ | |||
+ | |||
+ | '''Session 1 (3:30 – 5:00 pm on Monday, June 12): | ||
+ | |||
+ | '''Advances and challenges of multi-point/multi-spacecraft observations to radiation belt studies – radiation belt losses | ||
+ | |||
+ | 1. Luisa Capannolo: Properties of EMIC-driven Electron Precipitation Observed by ELFIN | ||
+ | |||
+ | 2. Murong Qin: Sub-MeV Electron Precipitation Driven by EMIC Waves in Plasmaspheric Plumes at High L shells | ||
+ | |||
+ | 3. Harriet George: Using GPS observations to revisit a pre-RBSP dropout event | ||
+ | |||
+ | 4. Muhammad Fraz Bashir: Observations of relativistic electron precipitation due to the combined scattering effects of whistler and EMIC waves | ||
+ | |||
+ | 5. Frances Staples: Differentiating Between Simultaneous Loss Drivers in Earth’s Outer Radiation Belt | ||
+ | |||
+ | 6. Zhi Gu Li: Modeling the Contribution of Precipitation Loss to the Radiation Belt Dropout Observed by Van Allen Probes using Multi-Spacecraft POES measurements | ||
+ | |||
+ | 7. Jinbei Huang: Modeling the Effects of Drift Orbit Bifurcation on the Magnetopause Shadowing Loss of Radiation Belt Electrons | ||
+ | |||
+ | 8. Nithin Sivadas: Optical signatures associated with precipitation from the outer boundary of the outer radiation belts | ||
+ | |||
+ | 9. Alexander Drozdov | ||
+ | |||
+ | 10. Open Discussion | ||
+ | |||
+ | |||
+ | '''Session 2 (10:30 am – 12:00 pm on Tuesday, June 13): | ||
+ | |||
+ | '''Advances and challenges of multi-point/multi-spacecraft observations to radiation belt studies – radiation belt enhancements | ||
+ | |||
+ | 1. Louis Ozeke: Using Multi-Spacecraft Observations and Ground Magnetometer data to Identify the Processes Responsible for Flux Enhancements in the Outer Radiation Belt | ||
+ | |||
+ | 2. Heejeong Kim/Larry Lyons: On the potential major contribution of flow burst injections to the formation of the radiation belt enhancement events | ||
+ | |||
+ | 3. Sneha Yadav: Relation between ground based ASI and magnetometer measurements of streamers and radiation belt electron injections | ||
+ | |||
+ | 4. Xinlin Li: CIRBE/REPTile-2 preliminary results | ||
+ | |||
+ | 5. Open Discussion | ||
+ | |||
+ | '''Early career session – radiation belt deep injections | ||
+ | |||
+ | 1. Ravinder Goyal: Simulation on the energetic electron deep injection into the low L region | ||
+ | |||
+ | 2. Yang Mei: On the energy-dependence of the deep (L<3.5) penetration of outer radiation belt electrons and protons | ||
+ | |||
+ | 3. Declan O'Brien: Observations of Low L (<3), >1 MeV Electron Flux Enhancements and 90° Minimum Pitch Angle Distributions During Strong Geomagnetic Storms | ||
+ | |||
+ | 4. Open Discussion | ||
+ | |||
+ | |||
+ | '''Session 3 (1:30 – 3:00 pm on Wednesday, June 14): | ||
+ | |||
+ | '''Early career session – radiation belt waves and wave-particle interactions | ||
+ | |||
+ | 1. Zhiyang Xia: On the wave-normal distribution of Lightning-Generated Whistlers and their propagation modes | ||
+ | |||
+ | 2. Dave Hartley: The Impact of plasma density gradients on chorus wave propagation | ||
+ | |||
+ | 3. Shujie Gu: Observational Properties of Harmonic EMIC waves: Statistical Study | ||
+ | |||
+ | 4. Jinxing Li: Fine Structure of Magnetosonic Waves Uncovered by EFW Burst-Mode Data of Van Allen Probes | ||
+ | |||
+ | 5. Longzhi Gan: Electron Precipitation by Intense Chorus Waves: Combined Effects of Anomalous Trapping and Phase Bunching | ||
+ | |||
+ | 6. Jiabei He: Association of relativistic microbursts duration with chorus wave properties | ||
+ | |||
+ | 7. Ben Hogan: On the loss of ultrarelativistic (>MeV) electron loss at L* = 3.5 | ||
+ | |||
+ | 8. Homayon Aryan: Enhanced radiation levels at aviation altitudes and their relationship to plasma waves in the inner magnetosphere | ||
+ | |||
+ | 9. Open Discussion | ||
+ | |||
+ | |||
+ | '''Session 4 (10:30 am – 12:00 pm on Thursday, June 15): | ||
+ | |||
+ | '''The interplay of physics-based and machine-learning models in radiation belt physics | ||
+ | |||
+ | 1. Simon Wing: Modeling Radiation Belt Electrons With Information Theory Informed Neural Networks | ||
+ | |||
+ | 2. Donglai Ma: Opening the Black Box of the Radiation Belt Machine Learning Model | ||
+ | |||
+ | 3. Xiangning Chu: The importance of Imbalanced regression: application for whistler-mode chorus waves | ||
+ | |||
+ | 4. Sergio Vidal-Luengo: Characterization of Relativistic Electron Precipitation Events Observed by the CALET Experiment Using Self-Organizing-Maps | ||
+ | |||
+ | 5. Open Discussion | ||
+ | |||
+ | '''Early-career session: radiation belt particles | ||
+ | |||
+ | 1. Man Hua: Dependence of electron flux dropouts in the Earth’s outer radiation belt on energy and driving parameters | ||
+ | |||
+ | 2. Alex Shane: Electron Lifetimes Measured at LEO: Comparison with RBSP Estimates and Pitch Angle Resolved Lifetimes | ||
+ | |||
+ | 3. Anthony Saikin: The role of local and radial diffusion in multi-MeV electron acceleration | ||
+ | |||
+ | 4. Open Discussion | ||
+ | |||
+ | |||
+ | == 2022 mini-GEM == | ||
+ | |||
+ | Our FG will hold one hybrid session and one joint session with DIP/MESO FGs in the 2022 mini-GEM. | ||
+ | |||
+ | |||
+ | '''Session 1: joint session with DIP/MESO FGs (12:00 - 1:30 pm CT, Sun, December 11) | ||
+ | |||
+ | '''Session 2: general contribution session (1:45 - 3:15 pm CT, Sun, December 11, Williford A) | ||
+ | |||
+ | Leon Olifer: Multipoint measurements of a fast radiation belt acceleration event | ||
+ | |||
+ | Alexander Drozdov: An OSSE using the VERB code for outer electron radiation belt | ||
+ | |||
+ | Riley Troyer: Timescales of chorus decay after particle injections and the connection to pulsating aurora | ||
+ | |||
+ | Adnane Osmane: Quantifying fast radial transport by ULF waves in Earth's radiation belts | ||
+ | |||
+ | |||
+ | The zoom link to join this session can be found below. | ||
+ | |||
+ | |||
+ | Topic: Mini-GEM RB FG session | ||
+ | Time: Dec 11, 2022 01:30 PM Central Time (US and Canada) | ||
+ | |||
+ | Join from PC, Mac, Linux, iOS or Android: https://auburn.zoom.us/j/89652827690?pwd=N0Y2WTY4K3FuaDVoa2YvdExmb3ZZZz09 | ||
+ | Password: RB | ||
+ | Connect using Computer/Device audio if possible. | ||
+ | |||
+ | Or Telephone: Meeting ID: 896 5282 7690 | ||
+ | Dial: +1 646 876 9923 (US Toll) | ||
+ | or +1 646 931 3860 (US Toll) | ||
+ | Password: 775130 | ||
+ | |||
+ | Or an H.323/SIP room system: | ||
+ | H.323: 162.255.37.11 (US West) or 162.255.36.11 (US East) | ||
+ | Meeting ID: 896 5282 7690 | ||
+ | Password: 775130 | ||
+ | |||
+ | SIP: 89652827690@zoomcrc.com | ||
+ | Password: 775130 | ||
+ | |||
+ | == 2022 GEM Summer Workshop == | ||
+ | |||
+ | Our FG will hold four sessions and one joint session with CP/SCIMM/MPEC FGs in the 2022 GEM Summer Workshop. | ||
+ | |||
+ | |||
+ | '''Session 1 (10:30 am - 12:00 pm on Tuesday, June 21): Panel Discussion on "Radiation Belt Loss (The Great Debate Part II)" | ||
+ | |||
+ | Chair: Lauren Blum | ||
+ | |||
+ | Panelists: Alexander Drozdov, Adam Michael, Robyn Millan, Frances Staples, and Weichao Tu | ||
+ | |||
+ | |||
+ | '''Session 2 (01:30 - 03:00 pm on Tuesday, June 21): General Contribution Session I | ||
+ | |||
+ | Chair: Xiangrong Fu | ||
+ | |||
+ | 1. Dave Hartley: The angular distribution of chorus waves near plumes (and other density gradients) | ||
+ | |||
+ | 2. Zhiyang Xia: Whistler Waves Above the Lower Hybrid Frequency in the Ionosphere and Their Counterparts in the Magnetosphere | ||
+ | |||
+ | 3. Man Hua: Self-limiting outer radiation belt electron acceleration driven by whistler-mode chorus waves | ||
+ | |||
+ | 4. Longzhi Gan: Bursty energetic electron precipitation by high-order resonances with very-oblique whistler-mode waves | ||
+ | |||
+ | 5. Zhi Gu Li: Quantifying the Global Precipitation of Energetic Electrons for the August 2013 Dropout Event | ||
+ | |||
+ | 6. Sasha Drozdov: Depletions of Multi-MeV Electrons and Their Association to Minima in Phase Space Density | ||
+ | |||
+ | 7. Ben Hogan: On the loss of ultra-relativistic electrons (>2 MeV) near L*=3.5 during the Van Allen Probes era | ||
+ | |||
+ | 8. Xingzhi Lyu: Modeling the Simultaneous Dropout of Energetic Electrons and Protons by EMIC Wave Scattering | ||
+ | |||
+ | 9. Xin An: Nonresonant scattering of energetic electrons by electromagnetic ion cyclotron waves | ||
+ | |||
+ | |||
+ | '''Session 3 (03:30 - 05:00 pm on Tuesday, June 21): General Contribution Session II | ||
+ | |||
+ | Chairs: Kelly Cantwell and Skyler Krantz | ||
+ | |||
+ | 1. Jinbei Huang: Modeling the Effects of Drift Orbit Bifurcation on Radiation Belt Electrons | ||
+ | |||
+ | 2. Ashley Greeley: Rapid changes in relativistic electron pitch angle distributions | ||
+ | |||
+ | 3. Christine Gabrielse: Utilizing the Heliophysics/Geospace System Observatory to Understand Particle Injections: Their Scale Sizes and Propagation Directions | ||
+ | |||
+ | 4. Sam Califf: Multi-Event Study on the Connection Between Subauroral Polarization Streams and Deep Energetic Particle Injections in the Inner Magnetosphere | ||
+ | |||
+ | 5. Xiangning Chu: Relativistic electron model in the outer radiation belt using a neural network approach | ||
+ | |||
+ | 6. Sang-Yun Lee: Simulating Long-Term Dynamics of Radiation Belt Electrons Using DREAM3D Model | ||
+ | |||
+ | 7. Adam Kellerman: Why modeling Earth's radiation belts on shorter time scales is necessary to resolve the key physical processes driving non-adiabatic changes | ||
+ | |||
+ | 8. Daniel da Silva: Calculating adiabatic invariants using LFM MHD driven magnetic fields (Canceled) | ||
+ | |||
+ | 9. Suhail Aldhurais: A Significant Aliasing Effect in RBSP Sampling of K2 Simulation Data | ||
+ | |||
+ | 10. Seth Claudepierre | ||
+ | |||
+ | |||
+ | '''Session 4 (10:30 am - 12:00 pm on Wednesday, June 22): Future Directions of Inner Magnetosphere Research and Exploration | ||
+ | |||
+ | Chair: Hong Zhao | ||
+ | |||
+ | Scene-setting talks given by Xinlin Li and Vania Jordanova | ||
+ | |||
+ | Open discussions | ||
+ | |||
+ | |||
+ | '''Joint Session with CP/SCIMM/MPEC FGs (03:30 - 05:00 pm on Wednesday, June 22): Impact of the Cold Plasma on Wave-Particle Interactions | ||
+ | |||
+ | == 2021 Hybrid mini-GEM == | ||
+ | |||
+ | Our FG will hold two hybrid sessions in the 2021 hybrid mini-GEM, including one joint session with UMEA FG. | ||
+ | |||
+ | |||
+ | '''Session 1: summary of panel discussion results + general contribution session (3:45 - 5:15 pm CST, Sun, December 12) | ||
+ | |||
+ | |||
+ | '''Summary of panel discussion results of 2021 GEM summer workshop | ||
+ | |||
+ | Solene Lejosne: Summary of panel discussion results on the radial transport vs. local acceleration (presented by Hong Zhao) | ||
+ | |||
+ | |||
+ | '''General contribution talks | ||
+ | |||
+ | Drew Turner: COMPASS: a Heliophysics Mission Concept Study for a dedicated radiation belt mission to Jupiter | ||
+ | |||
+ | Leon Olifer: GPS PSD and comparison with the Van Allen Probes | ||
+ | |||
+ | Xiao-Chen Shen: Spatial variation of energetic electron precipitation due to whistler mode hiss and chorus waves: THEMIS and ELFIN observations | ||
+ | |||
+ | Adam Michael: wave-particle interactions in test-particle simulations | ||
+ | |||
+ | |||
+ | The zoom link to join this session can be found below. | ||
+ | |||
+ | |||
+ | Topic: Mini-GEM RB FG session | ||
+ | Time: Dec 12, 2021 03:30 PM Central Time (US and Canada) | ||
+ | |||
+ | Join from PC, Mac, Linux, iOS or Android: https://auburn.zoom.us/j/85948889952?pwd=bjdKQStVWmtRaUZWR1JHeEhSYnp2QT09 | ||
+ | Password: RB | ||
+ | Connect using Computer/Device audio if possible. | ||
+ | |||
+ | Or Telephone: Meeting ID: 859 4888 9952 | ||
+ | Dial: +1 301 715 8592 (US Toll) | ||
+ | or +1 312 626 6799 (US Toll) | ||
+ | |||
+ | Password: 136279 | ||
+ | |||
+ | Or an H.323/SIP room system: | ||
+ | H.323: 162.255.37.11 (US West) or 162.255.36.11 (US East) | ||
+ | Meeting ID: 859 4888 9952 | ||
+ | Password: 136279 | ||
+ | |||
+ | SIP: 85948889952@zoomcrc.com | ||
+ | Password: 136279 | ||
+ | |||
+ | |||
+ | '''Session 2: joint session with UMEA on EMIC waves (5:30 - 7:00 pm CST, Sun, December 12) | ||
+ | |||
+ | The Zoom link is the same as the previous session. | ||
+ | |||
+ | == 2021 Virtual GEM == | ||
+ | |||
+ | Our FG will hold two sessions in 2021 Virtual GEM. | ||
+ | |||
+ | '''Session 1 (1:00 - 2:30 pm ET, Wed, July 28) | ||
+ | |||
+ | '''Panel discussion: Radial Transport vs. Local Acceleration: The Long-standing Debate''' | ||
+ | |||
+ | Chairs: Lauren Blum, Alexander Drozdov, and Michael Hartinger | ||
+ | |||
+ | Panelists: Hayley Allison, Mary Hudson, Allison Jaynes, Solene Lejosne, and Louis Ozeke | ||
+ | |||
+ | |||
+ | '''Decadal Discussion''' | ||
+ | |||
+ | Chair: Sasha Ukhorskiy | ||
+ | |||
+ | |||
+ | '''Session 2 (3:00 - 4:30 pm ET, Wed, July 28): | ||
+ | |||
+ | '''General Contribution Session''' | ||
+ | |||
+ | Chairs: Hong Zhao and Xiangrong Fu | ||
+ | |||
+ | Leonid Olifer: On the Formation of Phantom Electron Phase Space Density Peaks in Single Spacecraft Radiation Belt Data | ||
+ | |||
+ | Yuxuan Li: Characteristics of Three-belt Structure of Sub-MeV Electrons in the Radiation Belts | ||
+ | |||
+ | Ian Cohen: Investigating the Link Between Outer Radiation Belt Losses and Energetic Electron Escape at the Magnetopause | ||
+ | |||
+ | Tori Wilder: Electrostatic solitary waves in the magnetosphere observed by MMS | ||
+ | |||
+ | Anthony Saikin: Low Frequency Hiss model parameterized by plasmapause location | ||
+ | |||
+ | Jaya Joseph: The effects of equatorial noise on the inner belt proton density structure | ||
+ | |||
+ | Lengying Khoo: Modeling the effect of NWC transmitter using Van Allen Probes and PROBA-V measurements | ||
+ | |||
+ | Longzhi Gan: Dependence of Nonlinear Effects on Whistler-mode Chorus Wave Bandwidth and Amplitude: A Perspective from Diffusion Coefficients | ||
+ | |||
+ | Jinxing Li: Multipoint Observations of Quasiperiodic Emission Intensification and Effects on Energetic Electron Precipitation | ||
+ | |||
+ | Luisa Capannolo: The drivers and properties of relativistic electron precipitation in the nightside | ||
+ | |||
+ | Mike Shumko: Concurrent and Nonconcurrent Aurora and Relativistic Electron Precipitation | ||
+ | |||
+ | Riley Troyer: Understanding the higher energies of pulsating aurora through a statistical study with the Poker Flat Incoherent Scatter Radar | ||
+ | |||
+ | Murong Qin: Multi-point observation of global ULF-modulated energetic electron precipitation | ||
+ | |||
+ | Adam Michael: Incorporating local wave-particle interactions into CHIMP and their impact on the radiation belts during the recovery phase of the March 17, 2013 storm | ||
+ | |||
+ | Simon Wing: Untangling the solar wind and magnetospheric drivers of the radiation belt electrons | ||
+ | |||
+ | Sasha Drozdov: A Comparison of Radial Diffusion Coefficients in Long-Term Radiation Belt Simulations | ||
+ | |||
+ | Scot Elkington: radiation belt modeling | ||
+ | |||
== 2021 Virtual mini-GEM == | == 2021 Virtual mini-GEM == |
Latest revision as of 16:42, 26 November 2024
Contents
- 1 Focus Group Chairs
- 2 Focus Group Science Topic
- 3 Timeliness
- 4 Goals and Deliverables
- 5 Expected activities
- 6 2024 GEM Summer Workshop
- 7 2023 mini-GEM
- 8 2023 GEM Summer Workshop
- 9 2022 mini-GEM
- 10 2022 GEM Summer Workshop
- 11 2021 Hybrid mini-GEM
- 12 2021 Virtual GEM
- 13 2021 Virtual mini-GEM
- 14 2020 Virtual GEM
- 15 2019 mini-GEM
- 16 2019 GEM summer workshop
Focus Group Chairs
Hong Zhao, Auburn University (zzh0054@auburn.edu)
Lauren Blum, University of Colorado Boulder (Lauren.Blum@lasp.colorado.edu)
Sasha Ukhorskiy, JHU/APL (sasha.ukhorskiy@jhuapl.edu)
Xiangrong Fu, New Mexico Consortium (sfu@newmexicoconsortium.org)
Focus Group Science Topic
The Earth’s radiation belts are filled with energetic particles, which exhibit acceleration, transport, and loss processes under the influence of many physical mechanisms at timescales from minutes to days. Understanding the effectiveness and relative importance of physical mechanisms on radiation belt particles is of both scientific interest and practical needs. Since the discovery of Earth’s radiation belts 60 years ago, a lot of progress has been made on understanding the radiation belt dynamics based on in situ and ground-based observations as well as modeling efforts. Specifically, with recent missions such as Van Allen Probes, Arase, and CubeSats, many mysteries of radiation belt particles have been discovered. However, single-point measurements have limitations in revealing underlying physical mechanisms on the radiation belt particles due to spatial/temporal ambiguities and limited coverage. This focus group (FG) aims to deepen understanding of radiation belt particle dynamics on both local and global scales through coordinated measurements from multi-spacecraft as well as ground-based observations, combining with theoretical and modeling efforts. The science goals of this FG are to advance our understanding of newly explored topics which will greatly benefit from such coordinated measurements, specifically: 1) the physical mechanisms related to radiation belt electron acceleration and loss on short timescales (minutes to hours); 2) quantification of energetic electron precipitation into the atmosphere and the related physical mechanisms; 3) the properties and spatiotemporal distribution of waves in radiation belts and their effects on radiation belt particles; 4) dynamics of inner belt and slot region particles.
Timeliness
This new FG is timely because of ongoing and upcoming inner magnetosphere missions, newly revealed properties of radiation belt particle dynamics, and recently improved modeling capability in the radiation belts.
Recent and ongoing missions, including Van Allen Probes, Arase, THEMIS, MMS, LANL_GEO, GOES, POES, ground-based stations (e.g., Halley and CARISMA), CubeSats and balloons (e.g., AC6, CSSWE, FIREBIRD, and BARREL), and other space missions (e.g., GPS), provide comprehensive measurements of radiation belt particles and waves with good spatial and temporal coverage. The growing Heliophysics System Observatory, which includes a number of constellation missions, enables the multi-spacecraft and multi-mission sampling throughout the inner magnetosphere and thus provide improved observational capacities for radiation belt studies.
Upcoming missions, including the Air Force’s DSX mission and newly selected CubeSat missions focusing on the radiation belt studies (e.g., GTOSat, CIRBE, REAL, LAMP, etc.), are expected to launch within the next couple of years and will provide further radiation belt measurements at various orbits, such as LEO, MEO, GTO, etc. A number of new phenomena in the Earth’s radiation belts have been discovered in recent years, including the three-belt structure, the prevalent bump-on-tail energy spectrum inside the plasmasphere, impenetrable barrier of ultrarelativistic electrons, and cosmic ray albedo neutron decay (CRAND) as a dominant source for inner belt quasi-trapped electrons, which require further investigation through various spatiotemporal scales of observations and modeling.
Recently improved modeling capabilities, including localized models (e.g., particle-in-cell simulation, nonlinear interaction of radiation belt electrons and waves, etc) and global models (e.g., DREAM, VERB, RAM-SCB, etc), can help study the underlying physical mechanisms of observed particle dynamics in various spatial/temporal scales. Specifically, combined and improved radiation belt models by the former GEM FG, Quantitative Assessment of Radiation Belt Modeling (which has just ended in 2018), will be challenged to reproduce multi-point observations during conjunction events. The results can be used to assess the accuracy of models in various spatial/temporal scales, examine the relative importance of different mechanisms, and identify the missing mechanisms from the current models.
Goals and Deliverables
The broad goal of this new FG is to advance our understanding of radiation belt particle dynamics on both local and global scales through coordinated measurements from multi-spacecraft and ground-based observations combining with theoretical and modeling efforts. The specific science topics this FG will be focusing on, which will greatly benefit from coordinated measurements, include:
1) Improve the understanding of radiation belt particle acceleration and loss processes on short timescales (minutes to hours) and the related physical mechanisms. Various physical mechanisms have been proposed to explain the frequent acceleration and loss of radiation belt particles. Some mechanisms can cause rapid flux enhancement or depletion within minutes to hours. For example, chorus waves are able to produce orders of magnitude enhancements of radiation belt electron fluxes in a few hours; EMIC waves often scatter relativistic electrons on a timescale comparable or even shorter to their drift period; some nonlinear processes can also lead to significant changes of radiation belt electron fluxes on the timescale of electron drift period. The understanding of these rapid flux enhancements and depletions as well as the related mechanisms have been constrained by the available observations with limited spatial and/or temporal resolutions. Combining multi-point measurements from different missions will greatly improve the spatiotemporal resolution of observations and will help to identify and examine these rapid acceleration and loss processes of radiation belt particles. For example, with combined observations, the spatial/temporal ambiguities in electron phase space density evolution will be minimized, which can help identify specific physical mechanisms causing electron acceleration and loss in specific regions. Also, simultaneous measurements at different MLT during radiation belt electron fast losses can shed light on the dominant loss mechanism, e.g., magnetopause shadowing or EMIC wave scattering.
2) Quantify the radiation belt electron precipitation into the atmosphere and improve the understanding of the related physical mechanisms. Precipitation into the atmosphere is an important loss process for Earth’s radiation belt particles. Quantification of such loss as well as understanding of the physical mechanisms behind it is critical to understand the radiation belt dynamic balance. Due to the fast and patchy nature of radiation belt particle precipitation, measurements from a single spacecraft cannot accurately determine the spatial, temporal, and spectral characteristics of precipitations. Through coordinated measurements from a wide range of platforms, including satellites in GTO, GEO, MEO, and LEO, balloons, and ground observations, the spatial constraints and temporal evolutions of the precipitation events will be revealed. Magnetically conjugate observations near equator and at low altitude can be used both to identify scattering mechanisms and quantify the total loss of trapped populations; simultaneous low-altitude observations at close spatial conjunctions can provide information on the spatial properties of precipitation and help quantify local precipitation loss. Combining with modeling efforts, the underlying physical mechanisms causing radiation belt electron precipitation will gain an advanced understanding.
3) Improve the understanding of the spatiotemporal distribution, properties, and generation mechanism of waves in radiation belts and their effects on the radiation belt particles. Waves play a critical role in the radiation belt particle dynamics, while understanding spatial/temporal properties of these waves is essential to quantify the effects of various waves on the radiation belt particle acceleration and loss. Close magnetic conjunctions among spacecraft, along and/or across field lines, can provide a detailed look at wave local spatial properties; simultaneous measurements at various L and MLT can provide information of wave global distribution. These information will greatly benefit and also challenge the current wave models, stimulating the improvement of wave models. The improved wave models will be further implemented into comprehensive radiation belt models to investigate the effects of these waves on the radiation belt particles and the relative importance of individual acceleration, transport, and loss mechanisms.
4) Advance the understanding of inner belt and slot region particle dynamics. The Earth’s inner radiation belt and slot region have been little studied until recently. Recent discoveries in this low L region regarding abundant 10s – 100s of keV electrons but limited MeV electrons in the inner belt, energy- and MLT-dependent features of deep penetrations of radiation belt electrons into the low L region, and CRAND as an important source of quasi-trapped electrons in the inner belt have revealed the complexity of the particle dynamics in the inner belt and slot region which has not been well understood. Through multi-point measurements combining with theory and modeling, our understanding of inner belt and slot region particle dynamics will be greatly improved. For example, combining multi-point measurements near equator and at LEO, the dynamics and relation of trapped/quasi-trapped/precipitating electrons in the low L region can be revealed, and the roles of various mechanisms, including radial diffusion, pitch angle scattering, and CRAND, on these populations can be examined quantitatively through detailed modeling. Also, coordinated measurements in the low L region during particle deep penetration events can reveal the MLT-dependent features of energetic particle deep penetration, and with particle tracer the underlying physical mechanism causing the species- and energy-differential penetration can be examined in detail. The main deliverables from this FG will include the solutions to the above specific science questions, datasets of event-specific radiation belt particle and wave observations, and improved radiation belt local and global models for particle and waves.
Expected activities
The specific session topics and related activities include: (1) identifying the radiation belt particle enhancement and depletion events as well as wave events with conjunctive measurements of various space and ground-based missions; (2) data analysis of identified events combining multi-point measurements; (3) model improvement to include event-specific inputs and better spatial and temporal resolutions; (4) data-model comparisons for the investigation of individual mechanisms or identification of missing physical processes; (5) assessment of the role of newly discovered physical mechanisms.
The FG will organize challenges corresponding to each of the four main science questions it aims to address. We will identify a number of periods for study during which numerous conjunctive measurements are available, gather all available data, engage scientists to perform comprehensive data analysis, challenge modelers to reproduce not just single spacecraft measurements but multi-point observations to test the modeling capacity of various processes on different spatial/temporal scales, and organize the workshop-style sessions to foster more discussions on these topics.
2024 GEM Summer Workshop
Our FG will hold four sessions and two joint sessions with CP/SCIMM and MLGEM/CP/SCIMM FGs in the 2024 GEM Summer Workshop. The Zoom link for stand-alone sessions can be found below.
Session 1 (10:30 am - 12:00 pm, Tuesday, June 25th, Room Salon III, IV, VI):
Diffusive vs. non-diffusive radial transport discussion panel
Panelists: Adnane Osmane, Scot Elkington, Theodore Sarris, Mary Hudson, Weichao Tu, and Leonid Olifer
Session 2 (3:30 - 5:00 pm, Tuesday, June 25th, Room Salon III, IV, VI):
General contribution session
Due to the large volume of requests we received, please keep the presentation concise, within 3 minutes. Feel free to use this talk to advertise your poster and have more in-depth discussion at the NEW FG concurrent poster session.
1. Daniel da Silva: Quantifying Adiabatic Motion in the Outer Radiation Belt and Ring Current
2. Yang Mei: Characteristics of ubiquitous “zebra stripes” of relativistic electrons unveiled by CIRBE/REPTile-2 measurements and simulations
3. Declan O'Brien: Observations of the Detailed Structure of Relativistic Electron Drift Echoes Using High-Energy-Resolution REPT Data
4. Domenique Freund: MeV electron precipitation during radiation belt dropouts
5. Zhi Gu Li: Quantifying the spatial extent of Persisting EMIC waves through the modeling of multi-point POES/MetOp observations
6. Ruoxian Zhou: Statistical Characteristics and Origins of EMIC-Driven Relativistic Electron Precipitation
7. Jinbei Huang: Modeling the Fast Dropout of Radiation Belt Electrons During the 31 December 2016 Storm: A Comprehensive Study
8. Sergio Vidal-Luengo: Comparative Observations of the Outer Belt Electron Fluxes and Precipitated Relativistic Electrons
9. Huayue Chen: Resonant Electron Signatures in the Formation of Chorus Wave Subpackets
10. Man Hua: Upper Limit of Outer Belt Electron Acceleration and Their Controlling Geomagnetic Conditions: A Comparison of Storm and Non-Storm events
11. Zheng Xiang: Earth-Based Transmitters Trigger Precipitation of Inner Radiation Belt Electrons: Unveiling Observations and Modeling Results
12. Sam Walton: Investigating an Electron Flux Enhancement Event Below the Inner Radiation Belt
13. Heejeong Kim: Combined effects of rapid Injections and higher L-region losses in radiation belt enhancements
14. Dave Hartley: Whistler-Mode Waves in Plasmasphere-Plasmatrough Transition Regions
15. Xinlin Li: CIRBE/REPTile-2 measurements: on EMIC wave induced precipitations and Chorus wave induced precipitations
16. Adam Michael: Incorporating wave-particle interactions into global test particle simulations
Session 3 (10:30 am - 12:00 pm, Wednesday, June 26th, Room Salon I, II, V)
Focus Group concurrent poster session (NEW!)
The concurrent poster session allows participants to discuss their work in a less crowded and science-focused setting. We encourage presenters to indicate their attendance/availability both on the poster board and using the GEM App.
Session 4 (1:30 - 3:00 pm, Wednesday, June 26th, Room LEGENDS)
Open discussion: future of radiation belt science and exploration
Zoom link:
Topic: GEM RB FG sessions
Join from PC, Mac, Linux, iOS or Android: https://auburn.zoom.us/j/82088104592?pwd=STr4vbTH4jkblPzhaS6zCDs72zm202.1
Password: RB
Connect using Computer/Device audio if possible.
Or Telephone: Meeting ID: 820 8810 4592
Dial: +1 646 876 9923 (US Toll) or +1 646 931 3860 (US Toll) Password: 659537
Or an H.323/SIP room system:
H.323: 162.255.37.11 (US West) or 162.255.36.11 (US East) Meeting ID: 820 8810 4592 Password: 659537
SIP: 82088104592@zoomcrc.com Password: 659537
2023 mini-GEM
Our FG will hold one hybrid session in the 2023 mini-GEM.
If you would like to present in our session, please send the title of your presentation to Hong Zhao (zzh0054@auburn.edu) by December 8.
General Contribution Session (3:30 - 5:00 pm PT, December 10, Oregon Room + Nevada Room)
David Malaspina/Dave Hartley: Whistler-Mode Wave Properties in Plasmasphere-Plasmatrough Transition Regions
Leon Olifer: Using Multipoint GPS PSD Data for Calculating Radial Diffusion Coefficients in the Outer Radiation Belt
Yang Mei: On the Energy-Dependent Deep Penetration of Radiation Belt Electrons and Protons
The Zoom link to join this session can be found below.
Topic: Mini-GEM RB FG session
Time: Dec 10, 2023 03:30 PM Pacific Time (US and Canada)
Join from PC, Mac, Linux, iOS or Android: https://auburn.zoom.us/j/88505418124?pwd=djZvbUNMV0R2R1JEZU9raEIvaS93dz09
Password: RB
Connect using Computer/Device audio if possible.
Or Telephone: Meeting ID: 885 0541 8124
Dial: +1 309 205 3325 (US Toll) or +1 312 626 6799 (US Toll) Password: 536321
Or an H.323/SIP room system:
H.323: 162.255.37.11 (US West) or 162.255.36.11 (US East) Meeting ID: 885 0541 8124 Password: 536321
SIP: 88505418124@zoomcrc.com Password: 536321
2023 GEM Summer Workshop
Our FG will hold four sessions and two joint sessions with DIP and CPCP/DIP FGs in the 2023 GEM Summer Workshop.
Session 1 (3:30 – 5:00 pm on Monday, June 12):
Advances and challenges of multi-point/multi-spacecraft observations to radiation belt studies – radiation belt losses
1. Luisa Capannolo: Properties of EMIC-driven Electron Precipitation Observed by ELFIN
2. Murong Qin: Sub-MeV Electron Precipitation Driven by EMIC Waves in Plasmaspheric Plumes at High L shells
3. Harriet George: Using GPS observations to revisit a pre-RBSP dropout event
4. Muhammad Fraz Bashir: Observations of relativistic electron precipitation due to the combined scattering effects of whistler and EMIC waves
5. Frances Staples: Differentiating Between Simultaneous Loss Drivers in Earth’s Outer Radiation Belt
6. Zhi Gu Li: Modeling the Contribution of Precipitation Loss to the Radiation Belt Dropout Observed by Van Allen Probes using Multi-Spacecraft POES measurements
7. Jinbei Huang: Modeling the Effects of Drift Orbit Bifurcation on the Magnetopause Shadowing Loss of Radiation Belt Electrons
8. Nithin Sivadas: Optical signatures associated with precipitation from the outer boundary of the outer radiation belts
9. Alexander Drozdov
10. Open Discussion
Session 2 (10:30 am – 12:00 pm on Tuesday, June 13):
Advances and challenges of multi-point/multi-spacecraft observations to radiation belt studies – radiation belt enhancements
1. Louis Ozeke: Using Multi-Spacecraft Observations and Ground Magnetometer data to Identify the Processes Responsible for Flux Enhancements in the Outer Radiation Belt
2. Heejeong Kim/Larry Lyons: On the potential major contribution of flow burst injections to the formation of the radiation belt enhancement events
3. Sneha Yadav: Relation between ground based ASI and magnetometer measurements of streamers and radiation belt electron injections
4. Xinlin Li: CIRBE/REPTile-2 preliminary results
5. Open Discussion
Early career session – radiation belt deep injections
1. Ravinder Goyal: Simulation on the energetic electron deep injection into the low L region
2. Yang Mei: On the energy-dependence of the deep (L<3.5) penetration of outer radiation belt electrons and protons
3. Declan O'Brien: Observations of Low L (<3), >1 MeV Electron Flux Enhancements and 90° Minimum Pitch Angle Distributions During Strong Geomagnetic Storms
4. Open Discussion
Session 3 (1:30 – 3:00 pm on Wednesday, June 14):
Early career session – radiation belt waves and wave-particle interactions
1. Zhiyang Xia: On the wave-normal distribution of Lightning-Generated Whistlers and their propagation modes
2. Dave Hartley: The Impact of plasma density gradients on chorus wave propagation
3. Shujie Gu: Observational Properties of Harmonic EMIC waves: Statistical Study
4. Jinxing Li: Fine Structure of Magnetosonic Waves Uncovered by EFW Burst-Mode Data of Van Allen Probes
5. Longzhi Gan: Electron Precipitation by Intense Chorus Waves: Combined Effects of Anomalous Trapping and Phase Bunching
6. Jiabei He: Association of relativistic microbursts duration with chorus wave properties
7. Ben Hogan: On the loss of ultrarelativistic (>MeV) electron loss at L* = 3.5
8. Homayon Aryan: Enhanced radiation levels at aviation altitudes and their relationship to plasma waves in the inner magnetosphere
9. Open Discussion
Session 4 (10:30 am – 12:00 pm on Thursday, June 15):
The interplay of physics-based and machine-learning models in radiation belt physics
1. Simon Wing: Modeling Radiation Belt Electrons With Information Theory Informed Neural Networks
2. Donglai Ma: Opening the Black Box of the Radiation Belt Machine Learning Model
3. Xiangning Chu: The importance of Imbalanced regression: application for whistler-mode chorus waves
4. Sergio Vidal-Luengo: Characterization of Relativistic Electron Precipitation Events Observed by the CALET Experiment Using Self-Organizing-Maps
5. Open Discussion
Early-career session: radiation belt particles
1. Man Hua: Dependence of electron flux dropouts in the Earth’s outer radiation belt on energy and driving parameters
2. Alex Shane: Electron Lifetimes Measured at LEO: Comparison with RBSP Estimates and Pitch Angle Resolved Lifetimes
3. Anthony Saikin: The role of local and radial diffusion in multi-MeV electron acceleration
4. Open Discussion
2022 mini-GEM
Our FG will hold one hybrid session and one joint session with DIP/MESO FGs in the 2022 mini-GEM.
Session 1: joint session with DIP/MESO FGs (12:00 - 1:30 pm CT, Sun, December 11)
Session 2: general contribution session (1:45 - 3:15 pm CT, Sun, December 11, Williford A)
Leon Olifer: Multipoint measurements of a fast radiation belt acceleration event
Alexander Drozdov: An OSSE using the VERB code for outer electron radiation belt
Riley Troyer: Timescales of chorus decay after particle injections and the connection to pulsating aurora
Adnane Osmane: Quantifying fast radial transport by ULF waves in Earth's radiation belts
The zoom link to join this session can be found below.
Topic: Mini-GEM RB FG session
Time: Dec 11, 2022 01:30 PM Central Time (US and Canada)
Join from PC, Mac, Linux, iOS or Android: https://auburn.zoom.us/j/89652827690?pwd=N0Y2WTY4K3FuaDVoa2YvdExmb3ZZZz09
Password: RB
Connect using Computer/Device audio if possible.
Or Telephone: Meeting ID: 896 5282 7690
Dial: +1 646 876 9923 (US Toll) or +1 646 931 3860 (US Toll) Password: 775130
Or an H.323/SIP room system:
H.323: 162.255.37.11 (US West) or 162.255.36.11 (US East) Meeting ID: 896 5282 7690 Password: 775130
SIP: 89652827690@zoomcrc.com Password: 775130
2022 GEM Summer Workshop
Our FG will hold four sessions and one joint session with CP/SCIMM/MPEC FGs in the 2022 GEM Summer Workshop.
Session 1 (10:30 am - 12:00 pm on Tuesday, June 21): Panel Discussion on "Radiation Belt Loss (The Great Debate Part II)"
Chair: Lauren Blum
Panelists: Alexander Drozdov, Adam Michael, Robyn Millan, Frances Staples, and Weichao Tu
Session 2 (01:30 - 03:00 pm on Tuesday, June 21): General Contribution Session I
Chair: Xiangrong Fu
1. Dave Hartley: The angular distribution of chorus waves near plumes (and other density gradients)
2. Zhiyang Xia: Whistler Waves Above the Lower Hybrid Frequency in the Ionosphere and Their Counterparts in the Magnetosphere
3. Man Hua: Self-limiting outer radiation belt electron acceleration driven by whistler-mode chorus waves
4. Longzhi Gan: Bursty energetic electron precipitation by high-order resonances with very-oblique whistler-mode waves
5. Zhi Gu Li: Quantifying the Global Precipitation of Energetic Electrons for the August 2013 Dropout Event
6. Sasha Drozdov: Depletions of Multi-MeV Electrons and Their Association to Minima in Phase Space Density
7. Ben Hogan: On the loss of ultra-relativistic electrons (>2 MeV) near L*=3.5 during the Van Allen Probes era
8. Xingzhi Lyu: Modeling the Simultaneous Dropout of Energetic Electrons and Protons by EMIC Wave Scattering
9. Xin An: Nonresonant scattering of energetic electrons by electromagnetic ion cyclotron waves
Session 3 (03:30 - 05:00 pm on Tuesday, June 21): General Contribution Session II
Chairs: Kelly Cantwell and Skyler Krantz
1. Jinbei Huang: Modeling the Effects of Drift Orbit Bifurcation on Radiation Belt Electrons
2. Ashley Greeley: Rapid changes in relativistic electron pitch angle distributions
3. Christine Gabrielse: Utilizing the Heliophysics/Geospace System Observatory to Understand Particle Injections: Their Scale Sizes and Propagation Directions
4. Sam Califf: Multi-Event Study on the Connection Between Subauroral Polarization Streams and Deep Energetic Particle Injections in the Inner Magnetosphere
5. Xiangning Chu: Relativistic electron model in the outer radiation belt using a neural network approach
6. Sang-Yun Lee: Simulating Long-Term Dynamics of Radiation Belt Electrons Using DREAM3D Model
7. Adam Kellerman: Why modeling Earth's radiation belts on shorter time scales is necessary to resolve the key physical processes driving non-adiabatic changes
8. Daniel da Silva: Calculating adiabatic invariants using LFM MHD driven magnetic fields (Canceled)
9. Suhail Aldhurais: A Significant Aliasing Effect in RBSP Sampling of K2 Simulation Data
10. Seth Claudepierre
Session 4 (10:30 am - 12:00 pm on Wednesday, June 22): Future Directions of Inner Magnetosphere Research and Exploration
Chair: Hong Zhao
Scene-setting talks given by Xinlin Li and Vania Jordanova
Open discussions
Joint Session with CP/SCIMM/MPEC FGs (03:30 - 05:00 pm on Wednesday, June 22): Impact of the Cold Plasma on Wave-Particle Interactions
2021 Hybrid mini-GEM
Our FG will hold two hybrid sessions in the 2021 hybrid mini-GEM, including one joint session with UMEA FG.
Session 1: summary of panel discussion results + general contribution session (3:45 - 5:15 pm CST, Sun, December 12)
Summary of panel discussion results of 2021 GEM summer workshop
Solene Lejosne: Summary of panel discussion results on the radial transport vs. local acceleration (presented by Hong Zhao)
General contribution talks
Drew Turner: COMPASS: a Heliophysics Mission Concept Study for a dedicated radiation belt mission to Jupiter
Leon Olifer: GPS PSD and comparison with the Van Allen Probes
Xiao-Chen Shen: Spatial variation of energetic electron precipitation due to whistler mode hiss and chorus waves: THEMIS and ELFIN observations
Adam Michael: wave-particle interactions in test-particle simulations
The zoom link to join this session can be found below.
Topic: Mini-GEM RB FG session
Time: Dec 12, 2021 03:30 PM Central Time (US and Canada)
Join from PC, Mac, Linux, iOS or Android: https://auburn.zoom.us/j/85948889952?pwd=bjdKQStVWmtRaUZWR1JHeEhSYnp2QT09
Password: RB
Connect using Computer/Device audio if possible.
Or Telephone: Meeting ID: 859 4888 9952
Dial: +1 301 715 8592 (US Toll) or +1 312 626 6799 (US Toll) Password: 136279
Or an H.323/SIP room system:
H.323: 162.255.37.11 (US West) or 162.255.36.11 (US East) Meeting ID: 859 4888 9952 Password: 136279
SIP: 85948889952@zoomcrc.com Password: 136279
Session 2: joint session with UMEA on EMIC waves (5:30 - 7:00 pm CST, Sun, December 12)
The Zoom link is the same as the previous session.
2021 Virtual GEM
Our FG will hold two sessions in 2021 Virtual GEM.
Session 1 (1:00 - 2:30 pm ET, Wed, July 28)
Panel discussion: Radial Transport vs. Local Acceleration: The Long-standing Debate
Chairs: Lauren Blum, Alexander Drozdov, and Michael Hartinger
Panelists: Hayley Allison, Mary Hudson, Allison Jaynes, Solene Lejosne, and Louis Ozeke
Decadal Discussion
Chair: Sasha Ukhorskiy
Session 2 (3:00 - 4:30 pm ET, Wed, July 28):
General Contribution Session
Chairs: Hong Zhao and Xiangrong Fu
Leonid Olifer: On the Formation of Phantom Electron Phase Space Density Peaks in Single Spacecraft Radiation Belt Data
Yuxuan Li: Characteristics of Three-belt Structure of Sub-MeV Electrons in the Radiation Belts
Ian Cohen: Investigating the Link Between Outer Radiation Belt Losses and Energetic Electron Escape at the Magnetopause
Tori Wilder: Electrostatic solitary waves in the magnetosphere observed by MMS
Anthony Saikin: Low Frequency Hiss model parameterized by plasmapause location
Jaya Joseph: The effects of equatorial noise on the inner belt proton density structure
Lengying Khoo: Modeling the effect of NWC transmitter using Van Allen Probes and PROBA-V measurements
Longzhi Gan: Dependence of Nonlinear Effects on Whistler-mode Chorus Wave Bandwidth and Amplitude: A Perspective from Diffusion Coefficients
Jinxing Li: Multipoint Observations of Quasiperiodic Emission Intensification and Effects on Energetic Electron Precipitation
Luisa Capannolo: The drivers and properties of relativistic electron precipitation in the nightside
Mike Shumko: Concurrent and Nonconcurrent Aurora and Relativistic Electron Precipitation
Riley Troyer: Understanding the higher energies of pulsating aurora through a statistical study with the Poker Flat Incoherent Scatter Radar
Murong Qin: Multi-point observation of global ULF-modulated energetic electron precipitation
Adam Michael: Incorporating local wave-particle interactions into CHIMP and their impact on the radiation belts during the recovery phase of the March 17, 2013 storm
Simon Wing: Untangling the solar wind and magnetospheric drivers of the radiation belt electrons
Sasha Drozdov: A Comparison of Radial Diffusion Coefficients in Long-Term Radiation Belt Simulations
Scot Elkington: radiation belt modeling
2021 Virtual mini-GEM
Our FG will hold one session in 2021 mini-GEM at 12 – 2 pm EST on Jan 19, 2021. We will summarize our activities during the past years, discuss the plan for the 2021 GEM summer workshop, and collect ideas and feedback from the community. Zoom information can be found at gemworkshop.org.
2020 Virtual GEM
The presentation slides can be found at Google Drive: https://drive.google.com/drive/folders/1Oc_bqnDBrMB4YtJC9o9yh29WKlo1gcCz?usp=sharing.
Session 1 (1:00 - 2:30 pm ET, Tue, July 21):
Chair: Sasha Ukhorskiy
Moderator: Hong Zhao
Panel discussion: the role of mesoscale processes in radiation belt dynamics
Panelists: Kareem Sorathia, Oleksiy Agapitov, David Malaspina, Chris Crabtree, Drew Turner, and Xin An
General contribution talks (5 min each)
1. Jaya Joseph: When the impenetrable barrier is breached – a case study
2. Rachael Filwett: Solar protons in the inner magnetosphere and their connection to the dynamics of the radiation belts
3. Sungjun Noh: Upper limit of proton anisotropy and its relation to EMIC waves in the inner magnetosphere
4. Alex Boyd: Van Allen Probes ECT combined data products
Session 2 (3:00 - 4:30 pm ET, Tue, July 21):
Chair: Lauren Blum
Moderator: Xiangrong Fu
General contribution talks (5 min each)
1. Luisa Capannolo: Energetic electron precipitation observed by FIREBIRD-II driven by EMIC waves: location, extent, and minimum energy from a multi-event analysis
2. Homayon Aryan: Multi-parameter chorus and plasmaspheric hiss wave models/Outer radiation belt electron lifetime model based on combined Van Allen Probes and Cluster VLF measurements
3. Wen Li: Properties of lightning generated whistlers based on Van Allen Probes observations and their global effects on radiation belt electron loss
4. Qianli Ma: Electron pitch angle distributions during whistler-mode chorus and hiss wave events
5. Zach Beever: The nonadiabatic scattering of relativistic electrons in the outer boundary of the outer belt
6. Mike Shumko: Statistical properties of electron curtain precipitation estimated with AeroCube-6
7. Murong Qin: Multipoint observation of modulated electron precipitation
8. Arlo Johnson: Investigation of the Energy Spectrum of Microbursts Observed by FIREBIRD-II
9. Sasha Drozdov: The role of hiss, chorus and EMIC waves in the modeling of the dynamics of the multi-MeV radiation belt electrons
10. Riley Troyer: An ongoing statistical study of pulsating aurora and its impact on M-I coupling
11. Simon Wing: Applying information theory to RBSP data and empirical modeling of the radiation belt
12. Scot Elkington: MHD/SDE simulations using event-specific diffusion coefficients
13. Sasha Drozdov: A community-wide modeling validation effort on modeling/forecasting radiation belt dynamics from the International Space Weather Action Teams effort
14. Anthony Saikin: Reconstruction of the radiation belts for solar cycles 17 – 24 (1933 – 2017)
15. Artem Smirnov: Medium energy electron flux in Earth's outer radiation belt (MERLIN): a machine learning model
2019 mini-GEM
The presentation slides can be found at: https://drive.google.com/drive/folders/1D6Z1K3kX314_8_5TpcEoOcAPIKHNJnkz?usp=sharing
Session 1 (12:00 – 1:30 pm):
Recent Radiation Belt Space Mission Status and Results: How Multipoint Observations Can Enhance Science Return
Speakers: Sasha Ukhorskiy (Van Allen Probes), Yoshizumi Miyoshi (ARASE), James McCollough (DSX), Vassilis Angelopoulos (ELFIN), Lauren Blum (GTOSat), Lengying Khoo (CIRBE), Sarah Jones (LAMP), Wen Li (REAL), and Alexa Halford (REACH)
Session 2 (1:45 – 3:15 pm):
1. Panel Discussion on Chorus Wave Generation
Moderator: Sean Fu
Panelists: Oleksiy Agapitov, Jinxing Li, Wen Li, and Yoshiharu Omura
2. Feedbacks on mini-GEM FG Activities and Discussion on Potential Focused Topics
Chair: Hong Zhao
2019 GEM summer workshop
This FG had 4 sessions in 2019 GEM summer workshop (including 1 joint session with UMEA FG).
The presentations can be founded at: https://drive.google.com/drive/folders/1jNmoHdN9vph29UG7-LpPifahSzejSS9c?usp=sharing
Introduction of new FG and discussion of open radiation belt questions: 10:30am - 12:00pm, Tuesday, June 25
Chairs: Hong Zhao, Lauren Blum, Sasha Ukhorskiy, and Sean Fu
1. Chairs: Introduction of New Focus Group
2. Seth Claudepierre (invited): Recent advances and Open Questions in Radiation Belt Studies
3. Wen Li (invited): Review and Challenges of Multi-Point Measurements to Radiation Belt Modeling
4. Open Discussions
Challenge event session: 1:30 - 3:00pm, Tuesday, June 25
Chairs: Lauren Blum and Hong Zhao
Precipitation conjunction events
1. Mykhaylo Shumko and Ashley Greeley (invited): Precipitation Conjunction Events Overview
2. Nithin Sivadas: Optical Signatures of the Radiation Belt Boundary
3. Wen Li: Direct Observation of Sub-Relativistic Electron Precipitation Driven by EMIC Waves
4. Questions and Discussions
Close conjunction events
1. Drew Turner and Ian Cohen (invited): Close Conjunction Events between Van Allen Probes, MMS and ARASE
2. Justin Lee: EMIC wave activity during MMS-RBSP Close Conjunctions
3. Questions and Discussions
Radiation Belt Particles
1. Geoff Reeves: Identifying the Magnitude and Occurrence Frequency of Radiation Belt Enhancement Events
2. Maulik Patel: Simulations using LFM and Test Particle Code to Reproduce Drift Echoes Observed by the Van Allen Probes during the 16 July 2017 Event
3. Seth Claudiepierre: Electron Lifetimes from RBSP Observations and Comparison with Theoretical Estimates due to Pitch Angle Diffusion by Various Wave Modes
4. Sasha Drozdov: Depletion of Multi-MeV Electrons
5. Questions and Discussions
EMIC waves and their effects on radiation belt particles (joint with UMEA): 10:30am - 12:00pm, Thursday, June 27
General contribution session: 10:30am - 12:00pm, Friday, June 28
Chairs: Sasha Ukhorskiy and Sean Fu
Inner Belt and Slot Region
1. Xinlin Li: Source and Loss of Inner Belt Protons (10s of MeV) and Their Solar Cycle Variations Based on Multi-Point Measurements and Analysis
2. Zheng Xiang: On Trapped Electron Dynamics in Earth’s Inner Radiation Belt due to Atmospheric Scattering Loss and Cosmic Ray Albedo Neutron Decay (CRAND) as the Source
3. Man Hua: Modeling Electron Acceleration and Butterfly Pitch Angle Distributions in the Earth’s Inner Radiation Belt and Slot Region
4. Questions and Discussions
Radiation Belt Waves
1. Dave Hartley: The Angular Distribution of Chorus Waves and the Role of Plumes in the Chorus‐to‐Hiss Mechanism
2. Xin An: Nonlinear Wave Structures Driven by Whistler Waves
3. Shangchun Teng: Typical Characteristics of Whistler Mode Waves Categorized by Their Spectral Properties Using Van Allen Probes Observations
4. Ivan Vasko: Electrostatic Steepening of Whistler Waves in the Radiation Belts
5. Jinxing Li: Origin of two-band chorus waves in the Earth’s outer radiation belt
6. Homayon Aryan: Discrete Equatorial Magnetosonic Waves Observed by Cluster Satellites
7. Oleksiy Agapitov: TBD
8. Questions and Discussions
Radiation Belt Modeling
1. Anthony Chan: A New Technique for Radiation Belt Modeling: Theory
2. Scot Elkington: A New Technique for Radiation Belt Modeling: Results
3. Yihua Zheng: Model Validation
4. Liheng Zheng: Drift shell bifurcation effects on radiation belt electrons modeled by Markov chain
5. Questions and Discussions
For contributed talks: since there are a large number of talks and we would like to have enough time for questions and discussions, please keep talk short and concise, with maximum 3 slides (no title/conclusion slide) + 1 slide for potential benefit or challenge of multi-point measurements to the study. Following each group of contributed talks there will be questions and discussions.