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Main Authors: Kašparová, Jana, Dudík, Jaroslav, Karlický, Marian, Zemanová, Alena, Massa, Paolo, Krucker, Samuel, Schuller, Frédéric, Rybák, Ján
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2512.02594
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author Kašparová, Jana
Dudík, Jaroslav
Karlický, Marian
Zemanová, Alena
Massa, Paolo
Krucker, Samuel
Schuller, Frédéric
Rybák, Ján
author_facet Kašparová, Jana
Dudík, Jaroslav
Karlický, Marian
Zemanová, Alena
Massa, Paolo
Krucker, Samuel
Schuller, Frédéric
Rybák, Ján
contents We analyse imaging (EUV, X-ray) and spectral (radio, X-ray) data obtained by ground based and space instruments on board space missions both on Earth (Fermi, Hinode, Solar Dynamics Observatory) and solar orbit (Solar Orbiter, STEREO-A), which provide a multi-directional view on the same event. The combination of EUV and X-ray images and X-ray spectra allowed us to identify hot loops in the vicinity of the filament before its eruption. We interpreted their interaction with the rising filament as a signature of an arcade-to-rope reconnection geometry. The subsequent EUV brightening within the filament revealed helical structure of the erupting rope. We explained co-temporal radio slowly positively drifting bursts as a result of beam acceleration within the magnetic rope and propagation along the helical structure. Corresponding X-ray spectra were consistent with a thermal origin. The filament rising was accompanied by co-temporal normal and reverse drift type III radio bursts. We interpreted them as a signature of a reconnection event and estimated electron density at the reconnection site. Further untwisting of the helical structure led to formation of a quasi-circular EUV structure seen from Earth and STEREO-A. Its occurrence was co-temporal with a unique tangle of radio U- and inverse U-bursts. We proposed that several accelerated beams propagate within that complex structure and generate the burst tangle. During the start of the flare hard X-ray emission was concentrated near the filament leg only suggesting predominant propagation of the beams towards its rooting. We collected multi-wavelength observations indicating interaction of the erupting magnetic flux rope with the overlying arcade and internal magnetic reconnection inside the rising flux rope.
format Preprint
id arxiv_https___arxiv_org_abs_2512_02594
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Radio, X-ray, and EUV signatures of internal and external reconnection of an erupting flux rope
Kašparová, Jana
Dudík, Jaroslav
Karlický, Marian
Zemanová, Alena
Massa, Paolo
Krucker, Samuel
Schuller, Frédéric
Rybák, Ján
Solar and Stellar Astrophysics
We analyse imaging (EUV, X-ray) and spectral (radio, X-ray) data obtained by ground based and space instruments on board space missions both on Earth (Fermi, Hinode, Solar Dynamics Observatory) and solar orbit (Solar Orbiter, STEREO-A), which provide a multi-directional view on the same event. The combination of EUV and X-ray images and X-ray spectra allowed us to identify hot loops in the vicinity of the filament before its eruption. We interpreted their interaction with the rising filament as a signature of an arcade-to-rope reconnection geometry. The subsequent EUV brightening within the filament revealed helical structure of the erupting rope. We explained co-temporal radio slowly positively drifting bursts as a result of beam acceleration within the magnetic rope and propagation along the helical structure. Corresponding X-ray spectra were consistent with a thermal origin. The filament rising was accompanied by co-temporal normal and reverse drift type III radio bursts. We interpreted them as a signature of a reconnection event and estimated electron density at the reconnection site. Further untwisting of the helical structure led to formation of a quasi-circular EUV structure seen from Earth and STEREO-A. Its occurrence was co-temporal with a unique tangle of radio U- and inverse U-bursts. We proposed that several accelerated beams propagate within that complex structure and generate the burst tangle. During the start of the flare hard X-ray emission was concentrated near the filament leg only suggesting predominant propagation of the beams towards its rooting. We collected multi-wavelength observations indicating interaction of the erupting magnetic flux rope with the overlying arcade and internal magnetic reconnection inside the rising flux rope.
title Radio, X-ray, and EUV signatures of internal and external reconnection of an erupting flux rope
topic Solar and Stellar Astrophysics
url https://arxiv.org/abs/2512.02594