Triangulation of Hard X-Ray Sources in an X-Class Solar Flare with ASO-S/HXI and Solar Orbiter/STIX
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Published:2024-08
Issue:8
Volume:299
Page:
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ISSN:0038-0938
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Container-title:Solar Physics
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language:en
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Short-container-title:Sol Phys
Author:
Ryan Daniel F.ORCID, Massa PaoloORCID, Battaglia Andrea F.ORCID, Dickson Ewan C. M.ORCID, Su YangORCID, Chen Wei, Krucker SämORCID
Abstract
AbstractHXI on ASO-S and STIX onboard Solar Orbiter are the first simultaneously operating solar hard X-ray imaging spectrometers. ASO-S’s low Earth orbit and Solar Orbiter’s periodic displacement from the Sun–Earth line enables multi-viewpoint solar hard X-ray spectroscopic imaging analysis for the first time. Here, we demonstrate the potential of this new capability by reporting the first results of 3D triangulation of hard X-ray sources in the SOL2023-12-31T21:55 X5 flare. HXI and STIX observed the flare near the east limb with an observer separation angle of 18°. We triangulated the brightest regions within each source, which enabled us to characterise the large-scale hard X-ray geometry of the flare. The footpoints were found to be in the chromosphere within uncertainty, as expected, while the thermal looptop source was centred at an altitude of 15.1 ± 1 Mm. Given the footpoint separation, this implies a more elongated magnetic-loop structure than predicted by a semi-circular model. These results show the strong diagnostic power of joint HXI and STIX observations for understanding the 3D geometry of solar flares. We conclude by discussing the next steps required to fully exploit their potential.
Funder
Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung PRODEX Austrian Science Fund Key Technologies Research and Development Program NSFC FHNW University of Applied Sciences and Arts Northwestern Switzerland
Publisher
Springer Science and Business Media LLC
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