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Multipoint Observation of the Solar Wind Interaction with Strong Lunar Magnetic Anomalies by ARTEMIS Spacecraft and Chang’E-4 Rover

Lianghai Xie, Lei Li, Aibing Zhang, Huizi Wang, Quanqi Shi, Jindong Wang, Yiteng Zhang, Bin Zhou, Yongyong Feng, Jinbin Cao, Dafei Li, Shaojin Han

2022The Astrophysical Journal Letters14 citationsDOIOpen Access PDF

Abstract

Abstract A shock or a mini-magnetosphere was once thought to be formed by the solar wind interaction with strong lunar magnetic anomalies. However, the full structure of a mini-magnetosphere has never been verified and whether a mini-magnetosphere can be completely formed remains a controversy. In this work, we present a unique multipoint observation of such an interaction by the ARTEMIS spacecraft and the Chang’E-4 rover. Both solar wind deceleration and penetration are observed by the Chang’E-4 rover on the lunar surface near the magnetic anomaly. Meanwhile, a shock is observed by the ARTEMIS spacecraft downstream from the magnetic anomaly. It is suggested that the magnetic anomaly cannot stand off the solar wind, and there is no shock but just a boundary layer near the magnetic anomaly. Accordingly, a mini-magnetosphere is not completely formed and the downstream shock observed the ARTEMIS spacecraft just corresponds to a trailing shock.

Topics & Concepts

MagnetosphereSolar windGeophysicsSpacecraftMagnetic anomalyPhysicsAnomaly (physics)Mercury's magnetic fieldShock (circulatory)MagnetometerAstrobiologyMagnetosphere of JupiterBow shock (aerodynamics)MagnetopauseGeologyCoronal mass ejectionMagnetic fieldShock waveAstronomyMechanicsMedicineQuantum mechanicsCondensed matter physicsInternal medicineAstro and Planetary SciencePlanetary Science and ExplorationSolar and Space Plasma Dynamics
Multipoint Observation of the Solar Wind Interaction with Strong Lunar Magnetic Anomalies by ARTEMIS Spacecraft and Chang’E-4 Rover | Litcius