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Main Authors: Arsioli, Bruno, Orlando, Elena
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2401.03466
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author Arsioli, Bruno
Orlando, Elena
author_facet Arsioli, Bruno
Orlando, Elena
contents The Sun is one of the most luminous $γ$-ray sources in the sky and continues to challenge our understanding of its high-energy emission mechanisms. This study provides an in-depth investigation of the solar disk $γ$-ray emission, using data from the Fermi Large Area Telescope spanning 2008 August to 2022 January. We focus on $γ$-ray events with energies exceeding 5 GeV, originating from 0.5$^\circ$ angular aperture centered on the Sun, and implement stringent time cuts to minimize potential sample contaminants. We use a helioprojection method to resolve the $γ$-ray events relative to the solar rotation axes and combine statistical tests to investigate the distribution of events over the solar disk. We found that integrating observations over large time windows may overlook relevant asymmetrical features, which we reveal in this work through a refined time-dependent morphological analysis. We describe significant anisotropic trends and confirm compelling evidence of energy-dependent asymmetry in the solar disk $γ$-ray emission. Intriguingly, the asymmetric signature coincides with the Sun's polar field flip during the cycle 24 solar maximum, around 2014 June. Our findings suggest that the Sun's magnetic configuration plays a significant role in shaping the resulting $γ$-ray signature, highlighting a potential link between the observed anisotropies, solar cycle, and the solar magnetic fields. These insights pose substantial challenges to established emission models, prompting fresh perspectives on high-energy solar astrophysics.
format Preprint
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institution arXiv
publishDate 2024
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spellingShingle Yet Another Sunshine Mystery: Unexpected Asymmetry in GeV Emission from the Solar Disk
Arsioli, Bruno
Orlando, Elena
High Energy Astrophysical Phenomena
Solar and Stellar Astrophysics
The Sun is one of the most luminous $γ$-ray sources in the sky and continues to challenge our understanding of its high-energy emission mechanisms. This study provides an in-depth investigation of the solar disk $γ$-ray emission, using data from the Fermi Large Area Telescope spanning 2008 August to 2022 January. We focus on $γ$-ray events with energies exceeding 5 GeV, originating from 0.5$^\circ$ angular aperture centered on the Sun, and implement stringent time cuts to minimize potential sample contaminants. We use a helioprojection method to resolve the $γ$-ray events relative to the solar rotation axes and combine statistical tests to investigate the distribution of events over the solar disk. We found that integrating observations over large time windows may overlook relevant asymmetrical features, which we reveal in this work through a refined time-dependent morphological analysis. We describe significant anisotropic trends and confirm compelling evidence of energy-dependent asymmetry in the solar disk $γ$-ray emission. Intriguingly, the asymmetric signature coincides with the Sun's polar field flip during the cycle 24 solar maximum, around 2014 June. Our findings suggest that the Sun's magnetic configuration plays a significant role in shaping the resulting $γ$-ray signature, highlighting a potential link between the observed anisotropies, solar cycle, and the solar magnetic fields. These insights pose substantial challenges to established emission models, prompting fresh perspectives on high-energy solar astrophysics.
title Yet Another Sunshine Mystery: Unexpected Asymmetry in GeV Emission from the Solar Disk
topic High Energy Astrophysical Phenomena
Solar and Stellar Astrophysics
url https://arxiv.org/abs/2401.03466