Unified “systems science” – bridging high-energy and other solar subfields
Co-leaders: Bin Chen, Laura Hayes
Focused Topics
How remote-sensing observations at multiple wavelengths can help identify and constrain solar high-energy processes.
How in-situ observations from, e.g., SolO and PSP, can complement remote-sensing observations to achieve new insights into high-energy processes on the Sun and heliosphere.
How numerical modelings can be used in concord with observations to understand the high-energy processes.
How high-energy processes occur and evolve in the highly coupled solar atmosphere, solar wind, and heliosphere.
How high-energy processes are connected to space weather effects (e.g. ionospheric effects).
Focused Topics: First Session
How remote-sensing observations at multiple wavelengths can help identify and constrain solar high-energy processes.
How in-situ observations from, e.g., SolO and PSP, can complement remote-sensing observations to achieve new insights into high-energy processes on the Sun and heliosphere.
How numerical modelings can be used in concord with observations to understand the high-energy processes.
How high-energy processes occur and evolve in the highly coupled solar atmosphere, solar wind, and heliosphere.
How high-energy processes are connected to space weather effects (e.g. ionospheric effects).
Scene-setter: Vanessa Polito
Facilitators: Graham Kerr, Sijie Yu
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