Sigmoid Eruption Associated with the X9.3 Flare from AR 12673 Drives the Gradual Solar Energetic Particle Event on 2017 September 6

Stephanie L. Yardley and David H. Brooks
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Abstract

Large gradual solar energetic particle (SEP) events can pose a radiation risk to crewed spaceflight and a significant threat to near-Earth satellites; however, the origin of the SEP seed particle population, and how these particles are released, accelerated and transported into the heliosphere are not well understood. We analyze NOAA active region (AR) 12673, which was the source responsible for multiple large gradual SEP events during 2017 September, and found that almost immediately after each significant eruptive event associated with SEPs an enhanced Si/S abundance ratio was measured by Wind, consistent with the previous work by Brooks et al. The EUV Imaging Spectrometer (EIS) onboard Hinode took data roughly 8 hr before the second SEP event on 2017 September 6, which allowed the regions of enhanced Si/S abundance ratio in the AR to be determined. We have shown that the AR contains plasma with elemental abundance values detected in situ by Wind. In particular, the plasma originates from the core of the AR, similar to Brooks et al., but in the moss (footpoints) associated with hot sigmoidal AR loops. The sigmoid, which contains highly fractionated plasma, erupts and propagates toward an Earth-connected magnetic null point, providing a direct channel for the highly fractionated plasma to escape and be detected in the near-Earth environment.
与来自 AR 12673 的 X9.3 耀斑相关的西格玛喷发推动了 2017 年 9 月 6 日的渐变太阳高能粒子事件
大型渐变太阳高能粒子(SEP)事件会对载人航天构成辐射风险,并对近地卫星构成重大威胁;然而,人们对SEP种子粒子群的来源,以及这些粒子如何被释放、加速和传输到日光层并不十分了解。我们分析了诺阿活动区(AR)12673,该活动区是 2017 年 9 月期间多个大型渐变 SEP 事件的源头,发现几乎在每次与 SEP 相关的重大爆发事件之后,Wind 都会立即测量到 Si/S 丰度比的增强,这与 Brooks 等人之前的工作一致。在 2017 年 9 月 6 日第二次 SEP 事件发生前大约 8 小时,"日出号 "上的超紫外成像光谱仪(EIS)采集了数据,从而确定了 AR 中 Si/S 丰度比增强的区域。我们已经证明,AR 中含有等离子体,其元素丰度值是由 Wind 在原位探测到的。与布鲁克斯等人的研究类似,这些等离子体尤其来自于AR的核心,但却是在与热的乙字形AR环相关的苔藓(脚点)中。包含高分馏等离子体的乙字形环向与地球相连的磁零点喷发和传播,为高分馏等离子体在近地环境中逃逸和被探测提供了直接通道。
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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