Difference between revisions of "FG: Magnetospheric Sources of Particle Precipitation and Their Role on Electrodynamic Coupling of Magnetosphere-Ionosphere-Thermosphere Systems"
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- The effects of particle precipitation on the ionospheric electrodynamics, with an emphasis on the ionospheric conductance. <br> | - The effects of particle precipitation on the ionospheric electrodynamics, with an emphasis on the ionospheric conductance. <br> | ||
- Response of the I-T system to precipitation and its feedback to the Magnetosphere. <br> | - Response of the I-T system to precipitation and its feedback to the Magnetosphere. <br> | ||
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| + | == Get Involved in MPEC FG == | ||
| + | Please sign-up to our MPEC e-mail list to learn more about our FG and our activities: . | ||
Revision as of 09:48, 19 April 2022
Contents
To characterize magnetospheric particle precipitation from source to destination with rejuvenating observational and numerical capabilities.
Focus Group Chairs
Dogacan Su Ozturk -- University of Alaska Fairbanks
Dong Lin -- High Altitude Observatory, National Center for Atmospheric Research
Yiqun Yu -- Beihang University
Katherine Garcia-Sage -- NASA Goddard Space Flight Center
Stephen Kaeppler -- Clemson University
Focus Group Goals
To advance the physical knowledge and improve the numerical modelling of:
- The magnetospheric particle precipitation (precipitation mechanism and characteristics, magnetospheric origin, auroral forms).
- The effects of particle precipitation on the ionospheric electrodynamics, with an emphasis on the ionospheric conductance.
- Response of the I-T system to precipitation and its feedback to the Magnetosphere.
Get Involved in MPEC FG
Please sign-up to our MPEC e-mail list to learn more about our FG and our activities: .
