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Main Authors: Faryad, A., Pietrow, A. G. M., Verma, M., Denker, C.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2508.10853
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author Faryad, A.
Pietrow, A. G. M.
Verma, M.
Denker, C.
author_facet Faryad, A.
Pietrow, A. G. M.
Verma, M.
Denker, C.
contents Ellerman bombs (EBs) are small and short-lived magnetic reconnection events in the lower solar atmosphere, most commonly reported in the line wings of the H$α$ line. These events are thought to play a role in heating the solar chromosphere and corona, but their size, short lifetime, and similarity to other brightenings make them difficult to detect. We aim to automatically detect and statistically analyze EBs at different heliocentric angles to find trends in their physical properties. We developed an automated EB detection pipeline based on a star-finding algorithm. This pipeline was used on ten high-resolution H$α$ datasets from the 1-meter Swedish Solar Telescope (SST). This pipeline identifies and tracks EBs in time, while separating them from visually similar pseudo-EBs. It returns key parameters such as size, contrast, lifetime, and occurrence rates based on a dynamic threshold and the more classical static `contrast threshold` of 1.5 times the mean quiet-Sun (QS) intensity. For our dynamic threshold, we found a total of 2257 EBs from 28,772 individual detections across our datasets. On average, the full detection set exhibits an area of 0.44 arcsec$^2$ (0.37 Mm$^2$), a peak intensity contrast of 1.4 relative to the QS, and a median lifetime of 2.3 min. ...
format Preprint
id arxiv_https___arxiv_org_abs_2508_10853
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Automatic detection of Ellerman bombs in the H$α$ line
Faryad, A.
Pietrow, A. G. M.
Verma, M.
Denker, C.
Solar and Stellar Astrophysics
Ellerman bombs (EBs) are small and short-lived magnetic reconnection events in the lower solar atmosphere, most commonly reported in the line wings of the H$α$ line. These events are thought to play a role in heating the solar chromosphere and corona, but their size, short lifetime, and similarity to other brightenings make them difficult to detect. We aim to automatically detect and statistically analyze EBs at different heliocentric angles to find trends in their physical properties. We developed an automated EB detection pipeline based on a star-finding algorithm. This pipeline was used on ten high-resolution H$α$ datasets from the 1-meter Swedish Solar Telescope (SST). This pipeline identifies and tracks EBs in time, while separating them from visually similar pseudo-EBs. It returns key parameters such as size, contrast, lifetime, and occurrence rates based on a dynamic threshold and the more classical static `contrast threshold` of 1.5 times the mean quiet-Sun (QS) intensity. For our dynamic threshold, we found a total of 2257 EBs from 28,772 individual detections across our datasets. On average, the full detection set exhibits an area of 0.44 arcsec$^2$ (0.37 Mm$^2$), a peak intensity contrast of 1.4 relative to the QS, and a median lifetime of 2.3 min. ...
title Automatic detection of Ellerman bombs in the H$α$ line
topic Solar and Stellar Astrophysics
url https://arxiv.org/abs/2508.10853