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Main Authors: Berretti, M., Mestici, S., Giovannelli, L., Del Moro, D., Stangalini, M., Giannattasio, F., Berrilli, F.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2503.21359
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author Berretti, M.
Mestici, S.
Giovannelli, L.
Del Moro, D.
Stangalini, M.
Giannattasio, F.
Berrilli, F.
author_facet Berretti, M.
Mestici, S.
Giovannelli, L.
Del Moro, D.
Stangalini, M.
Giannattasio, F.
Berrilli, F.
contents Solar flares result from the rapid conversion of stored magnetic energy within the Sun's corona. These energy releases are associated with coronal magnetic loops, which are rooted in dense photospheric plasma and are passively transported by surface advection. Their emissions cover a wide range of wavelengths, with soft X-rays being the primary diagnostic for the past fifty years. Despite the efforts of multiple authors, we are still far from a complete theory, capable of explaining the observed statistical and individual properties of flares. Here, we exploit the availability of stable and long-term soft x-ray measurements from NASA's GOES mission to build a new solar flare catalogue, with a novel approach to linking sympathetic events. Furthermore, for the most energetic events since 2010, we have also provided a method to identify the origin of the observed flare and eventual link to the photospheric active region by exploiting the array of instruments onboard NASA's Solar Dynamic Observatory. Our catalogue provides a robust resource for studying space weather events and training machine learning models to develop a reliable early warning system for the onset of eruptive events in the solar atmosphere.
format Preprint
id arxiv_https___arxiv_org_abs_2503_21359
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle ASR: Archival Solar flaRes catalogue
Berretti, M.
Mestici, S.
Giovannelli, L.
Del Moro, D.
Stangalini, M.
Giannattasio, F.
Berrilli, F.
Solar and Stellar Astrophysics
Solar flares result from the rapid conversion of stored magnetic energy within the Sun's corona. These energy releases are associated with coronal magnetic loops, which are rooted in dense photospheric plasma and are passively transported by surface advection. Their emissions cover a wide range of wavelengths, with soft X-rays being the primary diagnostic for the past fifty years. Despite the efforts of multiple authors, we are still far from a complete theory, capable of explaining the observed statistical and individual properties of flares. Here, we exploit the availability of stable and long-term soft x-ray measurements from NASA's GOES mission to build a new solar flare catalogue, with a novel approach to linking sympathetic events. Furthermore, for the most energetic events since 2010, we have also provided a method to identify the origin of the observed flare and eventual link to the photospheric active region by exploiting the array of instruments onboard NASA's Solar Dynamic Observatory. Our catalogue provides a robust resource for studying space weather events and training machine learning models to develop a reliable early warning system for the onset of eruptive events in the solar atmosphere.
title ASR: Archival Solar flaRes catalogue
topic Solar and Stellar Astrophysics
url https://arxiv.org/abs/2503.21359