Mixed Source Region Signatures Inside Magnetic Switchback Patches Inferred by Heavy Ion Diagnostics

arXiv - PHYS - Space Physics Pub Date : 2024-09-05 DOI:arxiv-2409.03645

Yeimy J. Rivera, Samuel T. Badman, Michael L. Stevens, Jim M. Raines, Christopher J. Owen, Kristoff Paulson, Tatiana Niembro, Stefano A. Livi, Susan T. Lepri, Enrico Landi, Jasper S. Halekas, Tamar Ervin, Ryan M. Dewey, Jesse T. Coburn, Stuart D. Bale, B. L. Alterman

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Abstract

Since Parker Solar Probe's (Parker's) first perihelion pass at the Sun, large amplitude Alfv\'en waves grouped in patches have been observed near the Sun throughout the mission. Several formation processes for these magnetic switchback patches have been suggested with no definitive consensus. To provide insight to their formation, we examine the heavy ion properties of several adjacent magnetic switchback patches around Parker's 11th perihelion pass capitalizing on a spacecraft lineup with Solar Orbiter where each samples the same solar wind streams over a large range of longitudes. Heavy ion properties (Fe/O, C$^{6+}$/C$^{5+}$, O$^{7+}$/O$^{6+}$) related to the wind's coronal origin, measured with Solar Orbiter can be linked to switchback patch structures identified near the Sun with Parker. We find that switchback patches do not contain distinctive ion and elemental compositional signatures different than the surrounding non-switchback solar wind. Both the patches and ambient wind exhibit a range of fast and slow wind qualities, indicating coronal sources with open and closed field lines in close proximity. These observations and modeling indicate switchback patches form in coronal hole boundary wind and with a range of source region magnetic and thermal properties. Furthermore, the heavy ion signatures suggest interchange reconnection and/or shear driven processes may play a role in their creation.

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重离子诊断法推断出的磁回转斑块内部的混合源区特征

自从帕克太阳探测器（Parker）首次通过太阳近日点以来，在整个飞行任务期间，在太阳附近观测到了成片的大振幅阿尔弗波。人们提出了这些磁回波斑块的几种形成过程，但没有达成明确的共识。为了深入了解它们的形成过程，我们利用与太阳轨道器的航天器阵容，在帕克第11次近日点附近的几个相邻的磁回旋斑块中，对它们的重离子特性进行了研究，每个磁回旋斑块都在很大的经度范围内对相同的太阳风流进行了采样。太阳轨道器测量到的与风的日冕起源有关的重离子特性（Fe/O、C$^{6+}$/C$^{5+}$、O$^{7+}$/O$^{6+}$）可以与帕克号在太阳附近发现的回转斑块结构联系起来。我们发现，回旋斑块与周围的非回旋太阳风相比，并不包含独特的离子和元素组成特征。补丁和环境风都表现出一系列快风和慢风的特质，这表明日冕源附近有开放和封闭的场线。这些观测和建模结果表明，回扫补丁形成于日冕洞边界风中，并具有一系列源区磁和热特性。此外，重离子特征表明交换重联和/或剪切驱动过程可能在其形成过程中起了作用。

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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