CEDAR email: Participate in CEDAR Workshop on GDC Science, Multipoint Observations, and Tools

Katelynn Greer Katelynn.Greer at lasp.colorado.edu
Thu May 16 10:31:39 MDT 2024


Members of the CEDAR Community:

Please consider attending and presenting your work in the 2024 CEDAR workshop on GDC Science: Multipoint Observations & Tools.  We particularly seek short presentations on geospace multipoint observation analysis techniques, including Observing Systems Simulation Experiments (OSSEs).  The workshop session will be held on Thursday, 13 June 1600-1800 PT, immediately before the CEDAR banquet.

The Geospace Dynamics Constellation (GDC) is a mission to study the coupling between the magnetosphere and the ionosphere/thermosphere system. GDC will address crucial scientific questions pertaining to the dynamic processes active in Earth's upper atmosphere; their local, regional, and global structure; and their role in driving and modifying magnetospheric activity. GDC will be the first mission to address these questions on a global scale due to its use of a constellation of spacecraft (6) that permit simultaneous multi-point observations. In this session we will have a panel describing the mission and Science Traceability Matrix (STM), followed by short presentations geospace multipoint observation analysis techniques, including Observing Systems Simulation Experiments (OSSEs). We are particularly interested to learn about tools for multipoint analysis and tools that still need to be developed. The science area these multipoint analysis techniques will address include:
(1) Understanding how the high-latitude ionosphere-thermosphere system responds to variable solar wind/magnetosphere forcing. This includes plasma motion, particle precipitation, plasma density structures, and electromagnetic drivers.
(2) Understanding how internal processes in the global ionosphere-thermosphere system redistribute mass, momentum, and energy. This includes electromagnetic drivers and ion-neutral coupling in driving plasma density variations at mid- and low latitudes, processes that create and dissipate horizontally propagating ionosphere and thermosphere structures, the connections between winds, temperature, and major neutral species density variations, and how seasonal variations and asymmetries in Earth's magnetic field and magnetospheric input affect the ionosphere-thermosphere system.

For questions or inquiries, please contact Katelynn Greer at katelynn.greer at lasp.colorado.edu<mailto:katelynn.greer at lasp.colorado.edu>

Thank you on behalf of the conveners,
Katelynn Greer

Dr. Katelynn Greer (she/her)
katelynn.greer at lasp.colorado.edu<mailto:katelynn.greer at lasp.colorado.edu>
(970) 310-4628

Research Associate
Laboratory for Atmospheric and Space Physics

"In all science, error precedes the truth, and it is better it should go first than last."
-Hugh Walpole

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