Nonparametric Statistics on Magnetic Properties at the Footpoints of Erupting Magnetic Flux Ropes

arXiv - PHYS - Space Physics Pub Date : 2024-07-21 DOI:arxiv-2407.15148

Rui Liu, Wensi Wang

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Abstract

It is under debate whether the magnetic field in the solar atmosphere carries neutralized electric currents; particularly, whether a magnetic flux rope (MFR), which is considered the core structure of coronal mass ejections, carries neutralized electric currents. Recently Wang et al. (2023, ApJ, 943, 80) studied magnetic flux and electric current measured at the footpoints of 28 eruptive MFRs from 2010 to 2015. Because of the small sample size, no rigorous statistics has been done. Here, we include 9 more events from 2016 to 2023 and perform a series of nonparametric statistical tests at a significance level of 5\%. The tests confirm that there exist no significant differences in magnetic properties between conjugated footpoints of the same MFR, which justifies the method of identifying the MFR footpoints through coronal dimming. The tests demonstrate that there exist no significant differences between MFRs with pre-eruption dimming and those with only post-eruption dimming. However, there is a medium level of association between MFRs carrying substantial net current and those produce pre-eruption dimming, which can be understood by the Lorentz-self force of the current channel. The tests also suggest that in estimating the magnetic twist of MFRs, it is necessary to take into account the spatially inhomogeneous distribution of electric current density and magnetic field.

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喷发磁通量绳索脚点磁特性的非参数统计

太阳大气中的磁场是否携带中和电流，尤其是被认为是日冕物质抛射核心结构的磁通绳（MFR）是否携带中和电流，一直存在争议。最近，Wang等（2023，ApJ，943,80）研究了2010年至2015年期间在28个爆发性磁通索脚点测量到的磁通量和电流。由于样本量较小，没有进行严格的统计。在此，我们纳入了2016年至2023年的另外9个事件，并进行了一系列显著性水平为5%的非参数统计检验。检验结果表明，同一MFR的共轭脚点之间不存在明显的磁特性差异，这证明了通过日冕暗化来识别MFR脚点的方法是正确的。测试表明，在爆发前变暗和仅在爆发后变暗的多频带之间不存在显著差异。然而，携带大量净电流的中红外波长与产生爆发前变暗的中红外波长之间存在中等程度的关联，这可以通过电流通道的洛伦兹自力来理解。试验还表明，在估计MFR的磁捻度时，有必要考虑电流密度和磁场在空间上的不均匀分布。

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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arXiv - PHYS - Space Physics

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