Difference between revisions of "2018 GEM Workshop and GEM-CEDAR Joint Workshop"
Line 13: | Line 13: | ||
==== [FG] Dayside Kinetic Processes in Global Solar Wind-Magnetosphere Interaction ==== | ==== [FG] Dayside Kinetic Processes in Global Solar Wind-Magnetosphere Interaction ==== | ||
− | ==== [ | + | ==== [Joint] ULF wave Modeling, Effects, and Applications + Magnetotail Dipolarization and Its Effects on the Inner Magnetosphere + Testing Proposed Links between Mesoscale Auroral and Polar Cap Dynamics and Substorms ==== |
=== 1330-1500: Splinter Sessions === | === 1330-1500: Splinter Sessions === | ||
− | ==== [ | + | ==== [Joint] Magnetotail Dipolarization and Its Effects on the Inner Magnetosphere + Testing Proposed Links between Mesoscale Auroral and Polar Cap Dynamics and Substorms ==== |
==== [FG] ULF wave Modeling, Effects, and Applications ==== | ==== [FG] ULF wave Modeling, Effects, and Applications ==== | ||
Line 25: | Line 25: | ||
==== [FG] ULF wave Modeling, Effects, and Applications ==== | ==== [FG] ULF wave Modeling, Effects, and Applications ==== | ||
− | ==== [ | + | ==== [Joint] Magnetotail Dipolarization and Its Effects on the Inner Magnetosphere + Testing Proposed Links between Mesoscale Auroral and Polar Cap Dynamics and Substorms ==== |
Line 53: | Line 53: | ||
==== [FG] Inner Magnetosphere Cross-Energy/Population Interactions ==== | ==== [FG] Inner Magnetosphere Cross-Energy/Population Interactions ==== | ||
− | ==== [ | + | ==== [Joint] Dayside Kinetic Processes in Global Solar Wind-Magnetosphere Interaction + Modeling Methods and Validation ==== |
==== [FG] Magnetotail Dipolarization and Its Effects on the Inner Magnetosphere ==== | ==== [FG] Magnetotail Dipolarization and Its Effects on the Inner Magnetosphere ==== | ||
Line 66: | Line 66: | ||
=== 1030-1200: Splinter Sessions === | === 1030-1200: Splinter Sessions === | ||
− | ==== [ | + | ==== [Joint] ULF wave Modeling, Effects, and Applications + Modeling Methods and Validation ==== |
==== [FG] Magnetic Reconnection in the Age of the Heliophysics System Observatory ==== | ==== [FG] Magnetic Reconnection in the Age of the Heliophysics System Observatory ==== | ||
Line 101: | Line 101: | ||
==== [FG] Quantitative Assessment of Radiation Belt Modeling ==== | ==== [FG] Quantitative Assessment of Radiation Belt Modeling ==== | ||
− | ==== [ | + | ==== [Joint] Magnetic Reconnection in the Age of the Heliophysics System Observatory + Dayside Kinetic Processes in Global Solar Wind-Magnetosphere Interaction ==== |
== Thursday, June 21 == | == Thursday, June 21 == | ||
Line 143: | Line 143: | ||
=== 1330-1500: Splinter Sessions === | === 1330-1500: Splinter Sessions === | ||
− | ==== [ | + | ==== [Joint] 3D Ionospheric Electrodynamics and Its Impact on the Magnetosphere-Ionosphere-Thermosphere Coupled System (IEMIT) + Interhemispheric Approaches to Understand M-I Coupling (IHMIC) ==== |
==== SPEDAS Demo and Tutorial (Analyzing MMS data with SPEDAS) ==== | ==== SPEDAS Demo and Tutorial (Analyzing MMS data with SPEDAS) ==== |
Revision as of 11:18, 12 June 2018
Detailed Schedule
Below is a detailed session schedule with names of tentative speakers provided by Focus Group Leaders and Research Area Coordinators. The information here serves as a rough guide for those who wish to know the most updated session plans. Due to the dynamic nature of the Workshop, Focus Groups may continue to revise their agenda as needed.
All other information about the 2018 GEM Summer Workshop can be found at the GEM Workshop Coordinator site.
Contents
- 1 Monday, June 18
- 1.1 0830-1000: Plenary Session
- 1.2 1030-1200: Splinter Sessions
- 1.2.1 [FG] Dayside Kinetic Processes in Global Solar Wind-Magnetosphere Interaction
- 1.2.2 [Joint] ULF wave Modeling, Effects, and Applications + Magnetotail Dipolarization and Its Effects on the Inner Magnetosphere + Testing Proposed Links between Mesoscale Auroral and Polar Cap Dynamics and Substorms
- 1.3 1330-1500: Splinter Sessions
- 1.4 1530-1700: Splinter Sessions
- 1.5 1730-1830: Plenary Session
- 2 Tuesday, June 19
- 3 Wednesday, June 20
- 4 Thursday, June 21
- 5 Friday, June 22
Monday, June 18
0830-1000: Plenary Session
1030-1200: Splinter Sessions
[FG] Dayside Kinetic Processes in Global Solar Wind-Magnetosphere Interaction
[Joint] ULF wave Modeling, Effects, and Applications + Magnetotail Dipolarization and Its Effects on the Inner Magnetosphere + Testing Proposed Links between Mesoscale Auroral and Polar Cap Dynamics and Substorms
1330-1500: Splinter Sessions
[Joint] Magnetotail Dipolarization and Its Effects on the Inner Magnetosphere + Testing Proposed Links between Mesoscale Auroral and Polar Cap Dynamics and Substorms
[FG] ULF wave Modeling, Effects, and Applications
1530-1700: Splinter Sessions
[FG] ULF wave Modeling, Effects, and Applications
[Joint] Magnetotail Dipolarization and Its Effects on the Inner Magnetosphere + Testing Proposed Links between Mesoscale Auroral and Polar Cap Dynamics and Substorms
1730-1830: Plenary Session
Tuesday, June 19
0830-1000: Plenary Session
1030-1200: Splinter Sessions
[FG] Magnetic Reconnection in the Age of the Heliophysics System Observatory
[FG] Inner Magnetosphere Cross-Energy/Population Interactions
1330-1500: Splinter Sessions
[FG] Inner Magnetosphere Cross-Energy/Population Interactions
[FG] Dayside Kinetic Processes in Global Solar Wind-Magnetosphere Interaction
[FG] Magnetotail Dipolarization and Its Effects on the Inner Magnetosphere
1530-1700: Splinter Sessions
[FG] Inner Magnetosphere Cross-Energy/Population Interactions
[Joint] Dayside Kinetic Processes in Global Solar Wind-Magnetosphere Interaction + Modeling Methods and Validation
[FG] Magnetotail Dipolarization and Its Effects on the Inner Magnetosphere
1800-2100: Posters
Wednesday, June 20
0830-1000: Plenary Session
1030-1200: Splinter Sessions
[Joint] ULF wave Modeling, Effects, and Applications + Modeling Methods and Validation
[FG] Magnetic Reconnection in the Age of the Heliophysics System Observatory
[FG] Geospace Systems Science
1330-1500: Splinter Sessions
[FG] Modeling Methods and Validation
[FG] Tail Environment and Dynamics at Lunar Distances
[FG] Geospace Systems Science
1530-1700: Splinter Sessions
[FG] Tail Environment and Dynamics at Lunar Distances
1. San Lu, 3D global hybrid code
2. Lin Yu and Lei Cheng, Kinetic Alfven waves in 3D global hybrid code
2. Robert C. Allen: Cassini flyby of the magnetotail
3. Anton Artemyev, thin current sheet
4. Andrei Runov
5. Xiaochen and Quanqi Shi, Kelvin-Helmholtz waves in mid-tail
6. Jiang Liu, Field-aligned currents
7. Chih-Ping Wang