月距磁尾中相对论性电子风暴时间通量增强的延长间隔

IF 4.6 1区地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY

Geophysical Research Letters Pub Date : 2025-08-15 DOI:10.1029/2025GL116847

A. Runov, V. Angelopoulos, A. V. Artemyev, X. Shi, C. Gabrielse

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引用次数: 0

摘要

我们报告了能量在500kev或以上的电子通量的延长增强，通过绕月加速，重连，湍流，最小D st ${D}_{st}$≈磁暴恢复阶段月球与太阳相互作用的电动力学（ARTEMIS）在周期性极光电喷（ea $AE$）激活期间${\approx} $−200nt。高能电子通量的增强是全方位的，并在磁赤道附近观察到。没有检测到太阳高能粒子背景。虽然ARTEMIS探测到超过2 mV/m的地球磁通量输运脉冲，以及相关的宽带静电波动，但这些现象与相对论性电子通量增强之间没有明显的相关性。在相对论电子通量增强过程中获得的谱用Kappa函数拟合，κ $\kappa $ = 3.75，类似于月球距离上安静时间等离子体片电子居群的谱。远距离的多重重联事件很可能是导致电子加热的原因。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Prolonged Intervals of Relativistic Electron Storm-Time Flux Enhancements in the Magnetotail at Lunar Distance

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Prolonged Intervals of Relativistic Electron Storm-Time Flux Enhancements in the Magnetotail at Lunar Distance

We report on prolonged enhancements of electron fluxes at energies at or above 500 keV, observed in the magnetotail by the lunar-orbiting Acceleration, Reconnection, Turbulence, and Electrodynamics of Moon's Interaction with the Sun (ARTEMIS) during the recovery phase of a magnetic storm with minimum $D_{s t}$ $\approx$ −200 nT during periodic auroral electrojet ( $A E$ ) activations. The enhanced energetic electron fluxes were omnidirectional and observed near the magnetic equator. No solar energetic particle background was detected. Although ARTEMIS detected earthward magnetic flux transport impulses exceeding 2 mV/m, along with associated broadband electrostatic fluctuations, no correlation was evident between these phenomena and the relativistic electron flux enhancements. Spectra obtained during the relativistic electron flux enhancements are fit by the Kappa function, $κ$ = 3.75, similar to that of the quiet-time plasma sheet electron population at lunar distance. Multiple reconnection events at large distances are, most likely, responsible for the electron heating.

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来源期刊

Geophysical Research Letters 地学-地球科学综合

CiteScore

9.00

自引率

9.60%

发文量

1588

审稿时长

2.2 months

期刊介绍： Geophysical Research Letters (GRL) publishes high-impact, innovative, and timely research on major scientific advances in all the major geoscience disciplines. Papers are communications-length articles and should have broad and immediate implications in their discipline or across the geosciences. GRLmaintains the fastest turn-around of all high-impact publications in the geosciences and works closely with authors to ensure broad visibility of top papers.