Lunar Plasma Environment in Cases with Extreme Solar Wind Conditions:
First Results from 3-D Hybrid Kinetic Modeling and Comparison with
ARTEMIS Observations
Abstract
The study of lunar plasma environment’s response to the extreme solar
wind condition is the main subject of our investigation in this report.
The computational model includes the self-consistent dynamics of the
light (H_2+) and (He+), and heavy (Na^+}) pickup ions. The
electrons are considered as a fluid. The lunar interior is considered as
a weakly conducting body. The input parameters are taken from the
ARTEMIS observations. The modeling demonstrates a formation of the
various plasma structures near the Moon: (a) bow shock wave with split
shock transition in case of extreme solar wind density and standard bulk
velocity; (b) hyper-sonic/Alfvenic Mach cone in case of extreme solar
wind bulk velocity and moderate solar wind density. The modeling shows a
strong asymmetry in the solar wind ion VDF which connected with a plasma
compression and ion reflection at the bow shock wave/Mach cone front.