Electron Heating in Magnetosheath Turbulence: Dominant Role of the Parallel Electric Field Within Coherent Structures

Qianyun Xu; Meng Zhou; Wenqing MaJiansen HeShiyong HuangZhihong ZhongYe PangXiaohua Deng

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Electron Heating in Magnetosheath Turbulence: Dominant Role of the Parallel Electric Field Within Coherent Structures

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Abstract How particles are being energized by turbulent electromagnetic fields is an outstanding question in plasma physics and astrophysics. This paper investigates the electron acceleration mechanism in strong turbulence (δB/B0 ∼ 1) in the Earth's magnetosheath based on the novel observations of the Magnetospheric Multiscale mission. We find that electrons are magnetized in turbulent fields for the majority of the time. By directly calculating the electron acceleration rate from Fermi, betatron mechanism, and parallel electric field, it is found that electrons are primarily accelerated by the parallel electric field within coherent structures. Moreover, the acceleration rate by parallel electric fields increases as the spatial scale reduces, with the most intense acceleration occurring over about one ion inertial length. This study is an important step toward fully understanding the turbulent energy dissipation in weakly collisional plasmas.

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《Geophysical Research Letters》 |2023年第6期|n/a-n/a|共9页
作者
Qianyun Xu; Meng Zhou; Wenqing MaJiansen HeShiyong HuangZhihong ZhongYe PangXiaohua Deng;
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作者单位

Nanchang University;

Institute of Space Science and Technology;

Peking UniversityWuhan University;

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原文格式 PDF
正文语种英语
中图分类地球物理学;
关键词
turbulence; energy dissipation; parallel electric field; electron acceleration;

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Electron Heating in Magnetosheath Turbulence: Dominant Role of the Parallel Electric Field Within Coherent Structures

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