A Study on the Nested Rings CME Structure Observed by the WISPR Imager Onboard Parker Solar Probe

Shaheda Begum Shaik, Mark G. Linton, Sarah E. Gibson, Phillip Hess, Robin C. Colaninno, Guillermo Stenborg, Carlos R. Braga and Erika Palmerio
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Abstract

Despite the significance of coronal mass ejections (CMEs) in space weather, a comprehensive understanding of their interior morphology remains a scientific challenge, particularly with the advent of many state-of-the-art solar missions such as Parker Solar Probe (Parker) and Solar Orbiter (SO). In this study, we present an analysis of a complex CME as observed by the Wide-Field Imager for Solar PRobe (WISPR) heliospheric imager during Parker’s seventh solar encounter. The CME morphology does not fully conform with the general three-part density structure, exhibiting a front and core not significantly bright, with a highly structured overall configuration. In particular, its morphology reveals nonconcentric nested rings, which we argue are a signature of the embedded helical magnetic flux rope of the CME. For that, we analyze the morphological and kinematical properties of the nested density structures and demonstrate that they outline the projection of the three-dimensional structure of the flux rope as it crosses the lines of sight of the WISPR imager, thereby revealing the magnetic field geometry. Comparison of observations from various viewpoints suggests that the CME substructures can be discerned owing to the ideal viewing perspective, close proximity, and spatial resolution of the observing instrument.
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尽管日冕物质抛射(CMEs)在空间天气中具有重要意义,但全面了解其内部形态仍然是一项科学挑战,特别是在帕克太阳探测器(Parker Solar Probe)和太阳轨道器(Solar Orbiter)等许多最先进的太阳探测任务出现之后。在本研究中,我们分析了帕克第七次遭遇太阳时,太阳PRobe宽视场成像仪(WISPR)日光层成像仪观测到的复杂CME。该集合放射粒子的形态并不完全符合一般的三部分密度结构,它的前部和核心并不明显明亮,但整体构造非常有条理。特别是,它的形态显示了非同心嵌套环,我们认为这是 CME 内嵌螺旋磁通绳的特征。为此,我们分析了嵌套密度结构的形态和运动学特性,并证明它们勾勒出了磁通绳穿过 WISPR 成像仪视线时的三维结构投影,从而揭示了磁场的几何形状。从不同视角进行的观测比较表明,由于观测仪器的理想观测视角、近距离和空间分辨率,可以分辨出集合放射粒子的子结构。
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