Cluster Observations of Plasma in the High Latitude Magnetotail Associated With Cusp-Aligned Arcs

IF 2.6 2区地球科学 Q2 ASTRONOMY & ASTROPHYSICS

Journal of Geophysical Research: Space Physics Pub Date : 2025-04-03 DOI:10.1029/2024JA033252

M. K. Mooney, S. E. Milan, M. Lester, I. Dandouras, C. Carr, A. N. Fazakerley

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Abstract

During periods of northward interplanetary magnetic field (IMF), the magnetospheric structure and dynamics are dramatically different compared to the southward IMF case. Previous studies using both observations and simulations have shown that under northward IMF the magnetotail becomes dominated by closed magnetic flux and associated trapped particle populations. In this study, we analyze three intervals of plasma observed in the high latitude magnetotail during a period of prolonged northward IMF, coinciding with observations of cusp-aligned arcs in the polar region. We observe that the plasma is typically observed by all 4 Cluster spacecraft near simultaneously and has some substructure observed on length scales of 0.5–1.5 $R_{E}$ . The plasma characteristics in each of the three intervals studied are similar. The ion and electron densities are on the order of $10^{- 1}$ – $10^{0}$ ${cm}^{- 3}$ . The electron energies typically vary between $10^{2}$ and $10^{3}$ eV. The ion energies are higher compared to the electron energies and range between $10^{2}$ and $10^{4}$ eV. The ion temperatures are on the order of 5–18 MK. The speed of the plasma crossing the Cluster spacecraft is between 1 and 10 ${kms}^{- 1}$ . In one interval Cluster observes distinctly different but adjacent plasma populations. We suggest these plasma populations are on interleaving flux tubes and may present supporting evidence for dual lobe reconnection acting to trap plasma within the magnetosphere and resulting cusp-aligned arc formation.

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高纬度磁尾等离子体的星系团观测

在向北行星际磁场（IMF）期间，磁层结构和动力学与向南行星际磁场情况有显著不同。以往的观测和模拟研究表明，在向北的磁通量下，磁尾被封闭磁通量和相关的捕获粒子群所主导。在这项研究中，我们分析了在一个长时间的北向IMF期间，在高纬度磁尾观测到的三个等离子体间隔，这些等离子体与极地地区的尖端对准弧的观测相吻合。我们观察到，等离子体通常是由所有4个星系团航天器同时观测到的，并且在0.5-1.5 R E ${\math {R}}_{E}$的长度尺度上观测到一些子结构。所研究的三个区间的等离子体特征是相似的。离子和电子密度的数量级为10−1 ${10}^{-1}$ - 10 0 ${10}^{0}$cm−3 ${\text{cm}}^{-3}$。电子能量通常在10 ^ 2 ${10}^{2}$和10 ^ 3 ${10}^{3}$ eV之间变化。与电子能量相比，离子能量更高，其范围在10.2 ${10}^{2}$和10.4 ${10}^{4}$ eV之间。离子温度约为5-18 MK。等离子体穿过星系团航天器的速度在1 - 10公里-1 ${\text{kms}}^{-1}$。在一个区间内，Cluster观察到明显不同但相邻的等离子体种群。我们认为，这些等离子体群位于交错的磁通管上，可能为双瓣重联提供支持证据，这些重联作用是在磁层内捕获等离子体，并导致尖端对齐的电弧形成。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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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