电磁波对 GPS 航天器测量到的电子通量下降的影响:来自 ELFIN 的启示

IF 2.6 2区 地球科学 Q2 ASTRONOMY & ASTROPHYSICS
Didier Mourenas, Anton V. Artemyev, Xiao-Jia Zhang, Vassilis Angelopoulos
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引用次数: 0

摘要

尽管电磁离子回旋波(EMIC)对地球外辐射带动力学的影响已经是一个深入研究了20多年的课题,但它们对电子通量快速下降的影响尚未得到全面评估。在这里,我们利用全球定位系统(GPS)航天器在20000千米高空对同一L $L$-壳的被困电子通量的同期测量数据,以及2020-2022年电子损耗和场探测(ELFIN)立方体卫星在450千米高空对被困和析出电子通量的同期测量数据,研究了EMIC波驱动的电子析出对最后一个被困电子封闭漂移壳下方外辐射带动力学的影响。在七个选定事件中的六个事件中,在ELFIN测量到的1-2 MeV强电子沉淀可能是由EMIC波驱动的,发生在GPS航天器相对论电子通量下降后的1-2小时内。利用准线性扩散理论,从ELFIN的测量结果中推断出EMIC波驱动的俯仰角扩散率,从而使我们能够根据EMIC波的典型空间和时间范围定量估计相应的通量下降。我们发现,在所有事件中,仅EMIC波驱动的电子析出就可以解释1.5-3MeV的观测到的衰减量级,而当衰减量级低至0.5MeV时,电子损失的一部分有时可能是由EMIC波造成的。这表明,EMIC 波驱动的电子析出可以调节外辐射带中心 1 MeV 以上的衰减幅度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Impact of EMIC Waves on Electron Flux Dropouts Measured by GPS Spacecraft: Insights From ELFIN

Impact of EMIC Waves on Electron Flux Dropouts Measured by GPS Spacecraft: Insights From ELFIN

Although the effects of electromagnetic ion cyclotron (EMIC) waves on the dynamics of the Earth's outer radiation belt have been a topic of intense research for more than 20 years, their influence on rapid dropouts of electron flux has not yet been fully assessed. Here, we make use of contemporaneous measurements on the same L $L$ -shell of trapped electron fluxes at 20,000 km altitude by Global Positioning System (GPS) spacecraft and of trapped and precipitating electron fluxes at 450 km altitude by Electron Losses and Fields Investigation (ELFIN) CubeSats in 2020–2022, to investigate the impact of EMIC wave-driven electron precipitation on the dynamics of the outer radiation belt below the last closed drift shell of trapped electrons. During six of the seven selected events, the strong 1–2 MeV electron precipitation measured at ELFIN, likely driven by EMIC waves, occurs within 1–2 hr from a dropout of relativistic electron flux at GPS spacecraft. Using quasi-linear diffusion theory, EMIC wave-driven pitch angle diffusion rates are inferred from ELFIN measurements, allowing us to quantitatively estimate the corresponding flux drop based on typical spatial and temporal extents of EMIC waves. We find that EMIC wave-driven electron precipitation alone can account for the observed dropout magnitude at 1.5–3 MeV during all events and that, when dropouts extend down to 0.5 MeV, a fraction of electron loss may sometimes be due to EMIC waves. This suggests that EMIC wave-driven electron precipitation could modulate dropout magnitude above 1 MeV in the heart of the outer radiation belt.

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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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