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Main Authors: Xing, Chen, Cheng, Xin, Aulanier, Guillaume, Ding, Mingde
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2504.14876
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author Xing, Chen
Cheng, Xin
Aulanier, Guillaume
Ding, Mingde
author_facet Xing, Chen
Cheng, Xin
Aulanier, Guillaume
Ding, Mingde
contents The thorough understanding on the initiation of coronal mass ejections (CMEs), which is manifested as a slow rise of pre-eruptive structures before the impulsive ejection in kinematics, is the key for forecasting the solar eruptions. In our previous work, we showed that the slow rise of a hot flux rope with coronal mass density is caused by the moderate magnetic reconnection occurring in the hyperbolic flux tube (HFT) combined with the torus instability. However, it remains unclear how the initiation process varies when a filament is present in the pre-eruptive flux rope. In this work, we reveal the complete initiation route of a CME containing filament mass with a state-of-the-art full-magnetohydrodynamics simulation. The comprehensive analyses show that the filament mass has an important impact on the CME initiation through triggering and driving the slow rise of flux rope with its drainage, besides the contributions of HFT reconnection and torus instability. Finally, in combination with our previous work, we propose that the enhanced drainage of filament mass and various features related to the HFT reconnection, such as, the split of pre-eruptive structure and the pre-flare loops and X-ray emissions, can serve as the precursors of CME initiation in observations.
format Preprint
id arxiv_https___arxiv_org_abs_2504_14876
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Initiation Route of Coronal Mass Ejections: II. The Role of Filament Mass
Xing, Chen
Cheng, Xin
Aulanier, Guillaume
Ding, Mingde
Solar and Stellar Astrophysics
The thorough understanding on the initiation of coronal mass ejections (CMEs), which is manifested as a slow rise of pre-eruptive structures before the impulsive ejection in kinematics, is the key for forecasting the solar eruptions. In our previous work, we showed that the slow rise of a hot flux rope with coronal mass density is caused by the moderate magnetic reconnection occurring in the hyperbolic flux tube (HFT) combined with the torus instability. However, it remains unclear how the initiation process varies when a filament is present in the pre-eruptive flux rope. In this work, we reveal the complete initiation route of a CME containing filament mass with a state-of-the-art full-magnetohydrodynamics simulation. The comprehensive analyses show that the filament mass has an important impact on the CME initiation through triggering and driving the slow rise of flux rope with its drainage, besides the contributions of HFT reconnection and torus instability. Finally, in combination with our previous work, we propose that the enhanced drainage of filament mass and various features related to the HFT reconnection, such as, the split of pre-eruptive structure and the pre-flare loops and X-ray emissions, can serve as the precursors of CME initiation in observations.
title Initiation Route of Coronal Mass Ejections: II. The Role of Filament Mass
topic Solar and Stellar Astrophysics
url https://arxiv.org/abs/2504.14876