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A Double Disturbed Lunar Plasma Wake

Anthony P. Rasca, Shahab Fatemi, W. M. Farrell, A. R. Poppe, Yihua Zheng

2020Journal of Geophysical Research Space Physics12 citationsDOI

Abstract

Abstract Under nominal solar wind conditions, a tenuous wake forms downstream of the lunar nightside. However, the lunar plasma environment undergoes a transformation as the Moon passes through the Earth's magnetotail, with hot subsonic plasma causing the wake structure to disappear. We investigate the lunar wake response during a passing coronal mass ejection (CME) on March 8, 2012 while crossing the Earth's magnetotail using both a magnetohydrodynamic (MHD) model of the terrestrial magnetosphere and a three‐dimensional hybrid plasma model of the lunar wake. The CME arrives at 1 AU around 10:30 UT and its impact is first detected inside the geomagnetic tail after 11:10 UT by the Acceleration, Reconnection, Turbulence and Electrodynamics of the Moon's Interaction with the Sun (THEMIS‐ARTEMIS) satellites in lunar orbit. A global magnetospheric MHD simulation using Wind data for upstream conditions with the OpenGGCM model reveals the magnetosheath compression to the lunar position from 11:20–12:00 UT, accompanied by multiple flux rope or plasmoid‐like features developing and propagating tailward. MHD results support plasma changes observed by the THEMIS‐ARTEMIS satellites. Lunar‐scale simulations using the Amitis hybrid code show a short and misaligned plasma wake during the Moon's brief entry into the magnetosheath at 11:20 UT, with plasma expansion into the void being aided by the higher plasma temperatures. Sharply accelerated flow speed and a compressed magnetic field lead to an enhanced electric field in the lunar wake capable of generating sudden changes to the nightside near‐surface electric potential.

Topics & Concepts

PhysicsWakeMagnetosheathPlasmoidGeophysicsSolar windMagnetohydrodynamicsMagnetopausePlasmaMagnetosphereLunar orbitCoronal mass ejectionMagnetic reconnectionMechanicsAstronomySpacecraftQuantum mechanicsSolar and Space Plasma DynamicsIonosphere and magnetosphere dynamicsAstro and Planetary Science
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