前晕日冕物质抛射及其太阳源活动区和耀斑带性质分析

IF 2.7 3区 物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS Solar Physics Pub Date : 2023-02-07 DOI:10.1007/s11207-023-02113-w
P. Vijayalakshmi, A. Shanmugaraju, M. Bendict Lawrance, Y.-J. Moon, Hyeonock Na, E. Ebenezer
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引用次数: 0

摘要

来自太阳的日冕物质抛射是日冕物质抛射的一个子集,它比普通的日冕物质抛射更有能量。在白光日冕仪中,只有能量更高的日冕物质沿视力线运动时才能被观测到,而当日冕物质垂直于视力线运动时,日冕物质的观测效果更好。本文研究了2010 - 2016年太阳第24周期观测到的与耀斑相关的正面晕日冕物质抛射、活动区域(ARs)和耀斑带的性质。本研究的目的是探讨日冕物质抛射的运动特性与其源活动区和耀斑带特性之间的统计关系。得到所选事件的太阳源区特性(根据Hale和McIntosh的太阳黑子分类、太阳黑子面积和黑子数量)和耀斑带特性(总无符号磁通量、总无符号重联通量、活动区域面积和带状面积),并对其进行分析,发现晕状日冕物质抛射特性(线速度、动能、空间速度和质量)与源区特性的依赖关系。从初步分析来看,13% of halo CMEs are found to be associated with X-class flares, 52% with M-class flares, and 35% with C-class flares. It is found that many events (45/60) were produced by \(\upbeta \upgamma \updelta \) and \(\upbeta \upgamma \) Hale-type sunspot groups and Ekc/Dkc/Fkc McIntosh sunspot classes, which implies a degree of complexity of the involved sunspots. We found moderate correlations between the active region properties and CME properties, but strong correlation between the flare ribbons and CME properties. This result indicates that the kinematics of CMEs are determined by the role of magnetic reconnection and the flux related to it. We estimated the synthetic CME mass (using a synthetic CME generated based on a full ice-cream cone structure proposed recently by Na et al., Astrophys. J. 906, 46, 2021). It is demonstrated that the estimated mass of halo CMEs is 1.44 times (without occulted area) and 2 times (with occulted area) that of the observed CME mass. Further, the relations between the halo CME synthetic mass with the active region and flare ribbon properties have been obtained.
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Analysis of Front Side Halo CMEs and Their Solar Source Active Region and Flare Ribbon Properties

Halo coronal mass ejections (CMEs) from the Sun are the subset of CMEs, which are more energetic than the normal CMEs. Only the more energetic CMEs are observable in white-light coronagraphs when they are traveling along the line of sight (LOS) and a CME is better observed when it is traveling perpendicularly to the LOS. We investigated the flare associated front side halo CMEs, their active regions (ARs) and flare ribbon properties observed during the period of 2010 – 2016 in Solar Cycle 24. The aim of this study is to investigate the statistical relationship between the kinematic properties of CMEs and their source active region and flare ribbon properties. The properties of the solar source region (sunspot classification according to Hale and McIntosh, sunspot area, and the number of spots) and flare ribbons (total unsigned magnetic flux, total unsigned reconnection flux, active region area, and ribbon area) are obtained for the selected events and analyzed to find the dependence of the halo CME properties (linear speed, kinetic energy, space speed, and mass) on the source region characteristics. From the preliminary analysis, 13% of halo CMEs are found to be associated with X-class flares, 52% with M-class flares, and 35% with C-class flares. It is found that many events (45/60) were produced by \(\upbeta \upgamma \updelta \) and \(\upbeta \upgamma \) Hale-type sunspot groups and Ekc/Dkc/Fkc McIntosh sunspot classes, which implies a degree of complexity of the involved sunspots. We found moderate correlations between the active region properties and CME properties, but strong correlation between the flare ribbons and CME properties. This result indicates that the kinematics of CMEs are determined by the role of magnetic reconnection and the flux related to it. We estimated the synthetic CME mass (using a synthetic CME generated based on a full ice-cream cone structure proposed recently by Na et al., Astrophys. J. 906, 46, 2021). It is demonstrated that the estimated mass of halo CMEs is 1.44 times (without occulted area) and 2 times (with occulted area) that of the observed CME mass. Further, the relations between the halo CME synthetic mass with the active region and flare ribbon properties have been obtained.

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来源期刊
Solar Physics
Solar Physics 地学天文-天文与天体物理
CiteScore
5.10
自引率
17.90%
发文量
146
审稿时长
1 months
期刊介绍: Solar Physics was founded in 1967 and is the principal journal for the publication of the results of fundamental research on the Sun. The journal treats all aspects of solar physics, ranging from the internal structure of the Sun and its evolution to the outer corona and solar wind in interplanetary space. Papers on solar-terrestrial physics and on stellar research are also published when their results have a direct bearing on our understanding of the Sun.
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