EGU21-13992
https://doi.org/10.5194/egusphere-egu21-13992
EGU General Assembly 2021
© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

Unusual Location of the Geotail Magnetopause Near Lunar Orbit: A Case Study

Wensai Shang1, Binbin Tang2, Quanqi Shi1, and Et al3
Wensai Shang et al.
  • 1Shandong University (Weihai), Institute of Space Science, Weihai, China (vencent_s@163.com)
  • 2CSSAR, CAS, Beijing
  • 3PKU UCLA NUIST et al

The Earth's magnetopause is highly variable in location and shape and is modulated by solar wind conditions. On 8 March 2012, the ARTEMIS probes were located near the tail current sheet when an interplanetary shock arrived under northward interplanetary magnetic field conditions and recorded an abrupt tail compression at ∼(-60, 0, -5) Re in Geocentric Solar Ecliptic coordinate in the deep magnetotail. ~ 10 minutes later, the probes crossed the magnetopause many times within an hour after the oblique interplanetary shock passed by. The solar wind velocity vector downstream from the shock was not directed along the Sun-Earth line but had a significant Y component. We propose that the compressed tail was pushed aside by the appreciable solar wind flow in the Y direction. Using a virtual spacecraft in a global magnetohydrodynamic (MHD) simulation, we reproduce the sequence of magnetopause crossings in the X-Y plane observed by ARTEMIS under oblique shock conditions, demonstrating that the compressed magnetopause is sharply deflected at lunar distances in response to the shock and solar wind Vy effects. The results from two global MHD simulations show that the shocked magnetotail at lunar distances is mainly controlled by the solar wind direction with a timescale of about a quarter hour, which appears to be consistent with the windsock effect. The results also provide some references for investigating interactions between the solar wind/magnetosheath and lunar nearside surface during full moon time intervals, which should not happen in general.

How to cite: Shang, W., Tang, B., Shi, Q., and al, E.: Unusual Location of the Geotail Magnetopause Near Lunar Orbit: A Case Study, EGU General Assembly 2021, online, 19–30 Apr 2021, EGU21-13992, https://doi.org/10.5194/egusphere-egu21-13992, 2021.

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