15个太阳半径处日冕物质抛射的α-质子差流

arXiv - PHYS - Space Physics Pub Date : 2024-09-17 DOI:arxiv-2409.10799

Xuechao Zhang, Hongqiang Song, Xiaoqian Wang, Leping Li, Hui Fu, Rui Wang, Yao Chen

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引用次数: 0

摘要

日冕物质抛射（CMEs）和太阳风的α-质子差流（$V_{\alpha p}$）从太阳到1 au甚至更远，可能会影响日冕和行星际空间之间α粒子（He$^{2+}$/H$^{+}$）绝对丰度的瞬时对应关系，因为日冕源的丰度会随时间变化。以前基于Ulysses和Helios的研究表明，$V_{\alpha p}$在5到0.3 au的CME内可以忽略不计，类似于缓慢的太阳风（$<$ 400 km s$^{-1}$）。然而，最近利用帕克太阳探测器（Parker Solar Probe，PSP）进行的最新观测发现，慢风的$V_{\alphap}$在0.1au内增加到了$\sim$60 km s$^{-1}$。回答CMEs的$V_{\alpha p}$在太阳附近是否表现出类似的行为具有重要意义。在这封信中，我们首次报告了用PSP在$\sim$15 $R_\odot$测量到的CME的$V_{\alpha p}$，这表明CME的$V_{\alpha p}$在0.1au内是明显而复杂的，同时保持低于当地的Alfv\'{e}n速度。一个非常有趣的现象是，同一次CME的持续时间可以明显地分为A和B两个区间，库仑数分别为0.5以下和0.5以上。A（B）区间的$V_{α p}$和α-质子温度比的平均值分别为96.52（21.96）kms$^{-1}$和7.65（2.23）。这直接说明库仑碰撞在降低CMEs的非平衡态特征方面发挥了重要作用。我们的研究表明，CMEs 的绝对元素丰度也可能在其传播过程中发生变化。

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Alpha-Proton Differential Flow of A Coronal Mass Ejection at 15 Solar Radii

Alpha-proton differential flow ($V_{\alpha p}$) of coronal mass ejections (CMEs) and solar wind from the Sun to 1 au and beyond could influence the instantaneous correspondence of absolute abundances of alpha particles (He$^{2+}$/H$^{+}$) between solar corona and interplanetary space as the abundance of a coronal source can vary with time. Previous studies based on Ulysses and Helios showed that $V_{\alpha p}$ is negligible within CMEs from 5 to 0.3 au, similar to slow solar wind ($<$ 400 km s$^{-1}$). However, recent new observations using Parker Solar Probe (PSP) revealed that the $V_{\alpha p}$ of slow wind increases to $\sim$60 km s$^{-1}$ inside 0.1 au. It is significant to answer whether the $V_{\alpha p}$ of CMEs exhibits the similar behavior near the Sun. In this Letter, we report the $V_{\alpha p}$ of a CME measured by PSP at $\sim$15 $R_\odot$ for the first time, which demonstrates that the $V_{\alpha p}$ of CMEs is obvious and complex inside 0.1 au while keeps lower than the local Alfv\'{e}n speed. A very interesting point is that the same one CME duration can be divided into A and B intervals clearly with Coulomb number below and beyond 0.5, respectively. The means of $V_{\alpha p}$ and alpha-to-proton temperature ratios of interval A (B) is 96.52 (21.96) km s$^{-1}$ and 7.65 (2.23), respectively. This directly illustrates that Coulomb collisions play an important role in reducing the non-equilibrium features of CMEs. Our study indicates that the absolute elemental abundances of CMEs also might vary during their propagation.

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arXiv - PHYS - Space Physics

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