地球日侧磁层顶电子扩散区能量传输和转换统计研究

IF 2.6 2区 地球科学 Q2 ASTRONOMY & ASTROPHYSICS
Naïs Fargette, Jonathan P. Eastwood, Cara L. Waters, Marit Øieroset, Tai D. Phan, David L. Newman, J. E. Stawarz, Martin V. Goldman, Giovanni Lapenta
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引用次数: 0

摘要

电子扩散区(EDR)是磁重联的一个关键区域,但人们对 EDR 中典型的能量传输和转换仍不甚了解。在这项工作中,我们对之前公布的磁层多尺度数据中在日侧磁层顶发现的 80 个近 X 线事件进行了统计研究。我们发现 44 个事件清楚地呈现了所有公认的 EDR 特征,并利用这个数据库研究了能量通量分区和能量转换。我们发现 EDR 内部的能量分区发生了变化,粒子能量通量密度在电子和离子之间的分配比例分别为 71%-29%。我们发现电子焓通量密度在所有 EDR 的局部都占主导地位,并且主要面向平面外方向,垂直于重新连接的磁场。我们还研究了从电子主导能量通量分区到离子主导能量通量分区的过渡,发现这种过渡通常发生在离子惯性长度的数量级上,大于典型的 EDR 大小。然后,我们研究了能量转换和传输,并强调了复杂的过程,其中在 EDR 附近存在潜在的非稳态能量积累和释放。我们讨论了我们的结果对再连接能量转换以及一般磁层顶动力学的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Statistical Study of Energy Transport and Conversion in Electron Diffusion Regions at Earth's Dayside Magnetopause

The electron diffusion region (EDR) is a key region for magnetic reconnection, but the typical energy transport and conversion in EDRs is still not well understood. In this work, we perform a statistical study of 80 previously published near X-line events identified at the dayside magnetopause in Magnetospheric Multiscale data. We find 44 events that clearly present all commonly accepted EDR signatures and use this database to investigate energy flux partition and energy conversion. We find that energy partition is changed inside EDRs, with a 71%–29% allocation of particle energy flux density between electrons and ions respectively. The electron enthalpy flux density is found to dominate locally at all EDRs and is predominantly oriented in the out-of-plane direction, perpendicular to the reconnecting magnetic field. We also examine the transition from electron- to ion-dominated energy flux partition further from the EDR, finding this typically occurs at scales of the order of the ion inertial length, larger than the typical EDR size. We then investigate energy conversion and transport and highlight complex processes, with potential non-steady-state energy accumulation and release near the EDR. We discuss the implications of our results for reconnection energy conversion, and for magnetopause dynamics in general.

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来源期刊
Journal of Geophysical Research: Space Physics
Journal of Geophysical Research: Space Physics Earth and Planetary Sciences-Geophysics
CiteScore
5.30
自引率
35.70%
发文量
570
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