地球前震区从离子波到电子波的跨尺度能量转移

IF 2.6 2区地球科学 Q2 ASTRONOMY & ASTROPHYSICS

Journal of Geophysical Research: Space Physics Pub Date : 2024-07-25 DOI:10.1029/2024JA032567

Rui Chen, Xinliang Gao, Zhongwei Yang, Quanming Lu, Zhenyu Kong, Jiuqi Ma, Yangguang Ke, Chi Wang

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引用次数: 0

摘要

跨尺度能量转移是等离子物理学中的一个基本问题，但人们对这一问题的了解却很少。基于磁层多尺度卫星（MMS）数据，我们提出了地球前震区离子尺度波和电子尺度波之间能量传递的证据。在地球弓形冲击上游的太阳风中观测到了低频快速磁子波（LFWs，∼0.2 Hz；离子-能量尺度）。由于 LFWs 的磁压缩作用，超高温电子（∼10-100s eV）在垂直方向被绝热加热，从而导致高磁场区域的高各向异性。然后，这些各向异性电子通过回旋共振激发出高频惠斯勒模式波（HFWs，0.1-0.5 fce；电子能量尺度）。因此，这项研究揭示了能量如何从低频惠斯勒模式波传输到高频惠斯勒模式波，表明波粒相互作用在无碰撞等离子体的跨尺度能量传输中发挥了关键作用。

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Cross-Scale Energy Transfer From Ion-Scale to Electron-Scale Waves in the Earth's Foreshock Region

Cross-scale energy transfer is a fundamental problem in plasma physics but is poorly understood. Based on Magnetospheric Multiscale satellite (MMS) data, we present the evidence of the energy transfer between ion-scale and electron-scale waves in the Earth's foreshock region. Low-frequency fast-magnetosonic waves (LFWs, ∼0.2 Hz; ion-gyration scales) are observed in the solar wind upstream of the Earth's bow shock. Due to the magnetic compression of LFWs, suprathermal electrons (∼10–100s eV) are adiabatically heated in the perpendicular direction, which leads to the high anisotropy in the high-magnetic-field region. Then high-frequency whistler mode waves (HFWs, 0.1–0.5 f_ce; electron-gyration scales) are excited by those anisotropic electrons through cyclotron resonance. Therefore, this study reveals how energy is transported from LFWs to HFWs, suggesting that wave-particle interactions have played a key role in cross-scale energy transfer in collisionless plasmas.

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来源期刊

Journal of Geophysical Research: Space Physics Earth and Planetary Sciences-Geophysics

CiteScore

5.30

自引率

35.70%

发文量

570