Planetary Space Weather: fundamental plasma interactions in space environments
The emphasis of the session is on crucial processes of planetary space weather, that is, plasma physics and interactions of the interplanetary medium with the Solar System bodies, including:
(a) magnetosphere-ionosphere coupling dynamics and auroras: from the Earth to other planets
(b) the solar wind interaction with planets, moons, asteroids and comets
(c) plasma interactions with exospheres, dust and surfaces
(d) surface space weathering
(e) potential impact of planetary environment on technological space systems
(f) inter-comparisons of planetary environments
Contributions are welcome which address previous (e.g. Chandrayaan-1, KAGUYA, Venus Express, MESSENGER, Rosetta, Cassini), present (e.g. Juno,
Mars Express, MAVEN, CHANG'E 2), forthcoming (e.g. BepiColombo, Parker Solar Probe) and planned (e.g. JUICE, Solar Orbiter) observations from space. Analyses of ground-based observations of neutral and ionized environments are welcome, as well as laboratory studies aiming to simulate the interactions on planetary analogues in space. Theoretical modeling and simulations are also strongly encouraged, both in themselves and as a basis for inter-comparisons and interpretation of measurements. Regarding that major breakthroughs on terrestrial space weather have been made with measurements from THEMIS, Cluster, AMPERE, MMS and Van Allen Probes, we very welcome the relevant topics at the Earth too, as comparative study has proven to be a powerful tool in understanding planetary space weather.
PS4.1
Planetary Space Weather: fundamental plasma interactions in space environments