Author
Listed:
- Zi-Kang Xie
(Peking University)
- Qiu-Gang Zong
(Peking University
Macau University of Science and Technology)
- Chao Yue
(Peking University)
- Xu-Zhi Zhou
(Peking University)
- Zhi-Yang Liu
(Peking University)
- Jian-Sen He
(Peking University)
- Yi-Xin Hao
(Max Planck Institute for Solar System Research)
- Chung-Sang Ng
(University of Alaska Fairbanks)
- Hui Zhang
(Shandong University)
- Shu-Tao Yao
(Shandong University)
- Craig Pollock
(Denali Scientific)
- Guan Le
(Heliophysics Science Division, NASA, Goddard Space Flight Center)
- Robert Ergun
(University of Colorado LASP)
- Per-Arne Lindqvist
(KTH Royal Institute of Technology)
Abstract
Turbulent energy dissipation is a fundamental process in plasma physics that has not been settled. It is generally believed that the turbulent energy is dissipated at electron scales leading to electron energization in magnetized plasmas. Here, we propose a micro accelerator which could transform electrons from isotropic distribution to trapped, and then to stream (Strahl) distribution. From the MMS observations of an electron-scale coherent structure in the dayside magnetosheath, we identify an electron flux enhancement region in this structure collocated with an increase of magnetic field strength, which is also closely associated with a non-zero parallel electric field. We propose a trapping model considering a field-aligned electric potential together with the mirror force. The results are consistent with the observed electron fluxes from ~50 eV to ~200 eV. It further demonstrates that bidirectional electron jets can be formed by the hourglass-like magnetic configuration of the structure.
Suggested Citation
Zi-Kang Xie & Qiu-Gang Zong & Chao Yue & Xu-Zhi Zhou & Zhi-Yang Liu & Jian-Sen He & Yi-Xin Hao & Chung-Sang Ng & Hui Zhang & Shu-Tao Yao & Craig Pollock & Guan Le & Robert Ergun & Per-Arne Lindqvist, 2024.
"Electron scale coherent structure as micro accelerator in the Earth’s magnetosheath,"
Nature Communications, Nature, vol. 15(1), pages 1-8, December.
Handle:
RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-45040-5
DOI: 10.1038/s41467-024-45040-5
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