Global Compression of the Plasma Sheet and Magnetotail During Intense Storms From THEMIS Observations

IF 2.6 2区 地球科学 Q2 ASTRONOMY & ASTROPHYSICS Journal of Geophysical Research: Space Physics Pub Date : 2024-09-10 DOI:10.1029/2024JA032888
S. W. Alqeeq, D. Fontaine, O. Le Contel, M. Akhavan Tafti, E. Cazzola, T. Atilaw, V. Angelopoulos, H. U. Auster
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Abstract

We estimate the global impact of storms on the global structure and dynamics of the night side plasma sheet from observations by the NASA mission Time History of Events and Macroscale Interactions during Substorms (THEMIS). We focus on an intense storm occurring in December 2015 triggered by interplanetary coronal mass ejections (ICMEs). It starts with a storm sudden commencement (SSC) phase (SYM-H ${\sim} $ +50 nT) followed by a growth phase (SYM-H ${\sim} $ −188 nT at the minimum) and then a long recovery phase lasting several days. We investigate THEMIS observations when the spacecraft were located in the midnight sector of the plasma sheet at distances typically between 8 and 13 Earth's radii. It is found that the plasma sheet has been globally compressed up to a value of about > ${\sim} > $ 4 nPa during the SSC and main phases, that is, 8 times larger than its value during the quiet phase before the event. This compression occurs during periods of high dynamic pressure in the ICME (20 nPa) about one order of magnitude larger than its value in the pristine solar wind. We infer a global increase of the lobe magnetic field from 30 to 100 nT, confirmed by THEMIS data just outside the plasma sheet. During the SSC and main phases, the plasma sheet is found thinner by a factor of 2 relative to its thickness at quiet times, while the Tsyganenko T96 magnetic field model shows very stretched magnetic field lines from inner magnetospheric regions toward the night side. During the recovery phase, whereas the interplanetary pressure has dropped off, the plasma sheet tends to gradually recover its quiet phase characteristics (pressure, thickness, magnetic configuration, etc.) during a long recovery phase of several days.

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从 THEMIS 观测数据看强烈风暴期间等离子体片和磁尾的全球压缩现象
我们通过美国国家航空航天局(NASA)的 "亚暴期间事件和宏观尺度相互作用时间史"(THEMIS)任务的观测,估计了风暴对夜侧等离子体层的全球结构和动力学的影响。我们重点研究了2015年12月由行星际日冕物质抛射(ICMEs)引发的一次强烈风暴。它以一个风暴突然开始(SSC)阶段(SYM-H ∼ $\{sim} $ +50nT)开始,随后是一个增长阶段(SYM-H ∼ $\{sim} $ -188 nT at the minimum),然后是一个持续数天的漫长恢复阶段。我们研究了当航天器位于等离子体片午夜扇区时的 THEMIS 观测结果,其距离通常在 8 到 13 个地球半径之间。结果发现,等离子体片在SSC和主要阶段被全面压缩,压缩值约为∼ > ${\sim} > $ 4 nPa,是事件发生前静止阶段的8倍。这种压缩发生在ICME的高动压期(20 nPa),比原始太阳风中的动压值大一个数量级。我们推断等离子体片外的THEMIS数据证实,等离子体片磁场从30 nT增加到100 nT。在 SSC 和主阶段,等离子体薄片的厚度比安静时的厚度薄了 2 倍,而 Tsyganenko T96 磁场模型显示,磁层内部区域的磁场线向夜侧延伸得非常长。在恢复阶段,虽然行星际压力已经下降,但等离子体片往往会在长达数天的恢复阶段中逐渐恢复其安静阶段的特征(压力、厚度、磁构型等)。
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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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