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Main Author: Abdalla, Hassan
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2508.09948
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author Abdalla, Hassan
author_facet Abdalla, Hassan
contents The detection of gamma-ray burst GRB~221009A has attracted significant attention due to its record brightness and the first-ever detection of multi-TeV $γ$-rays from a GRB. Located at redshift $z=0.151$, this event is relatively nearby by GRB standards yet remains cosmologically distant, making the survival of multi-TeV photons surprising. The Large High Altitude Air Shower Observatory detected photons with energies up to $\sim 13$~TeV during the early afterglow phase, challenging standard EBL models. We investigate whether several theoretical frameworks can explain this anomalous emission: reduced EBL opacity due to cosmic voids along the line of sight, novel emission mechanisms within the GRB environment, secondary $γ$-ray production through cosmic-ray cascades, and new-physics scenarios involving Lorentz-invariance violation or axion-like particles. Our analysis highlights the exceptional nature of this event and ongoing theoretical tensions about the dominant physical processes. We discuss the limitations of current models and identify specific observational signatures that future multiwavelength and multi-messenger observations could provide to discriminate between competing explanations. Continued study of similar events with next-generation facilities will be crucial for resolving these challenges and advancing our understanding of extreme particle acceleration in astrophysical environments.
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publishDate 2025
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spellingShingle Multi-TeV Gamma Rays from GRB 221009A: Challenges for Emission Mechanisms, EBL Opacity, and Fundamental Physics
Abdalla, Hassan
High Energy Astrophysical Phenomena
The detection of gamma-ray burst GRB~221009A has attracted significant attention due to its record brightness and the first-ever detection of multi-TeV $γ$-rays from a GRB. Located at redshift $z=0.151$, this event is relatively nearby by GRB standards yet remains cosmologically distant, making the survival of multi-TeV photons surprising. The Large High Altitude Air Shower Observatory detected photons with energies up to $\sim 13$~TeV during the early afterglow phase, challenging standard EBL models. We investigate whether several theoretical frameworks can explain this anomalous emission: reduced EBL opacity due to cosmic voids along the line of sight, novel emission mechanisms within the GRB environment, secondary $γ$-ray production through cosmic-ray cascades, and new-physics scenarios involving Lorentz-invariance violation or axion-like particles. Our analysis highlights the exceptional nature of this event and ongoing theoretical tensions about the dominant physical processes. We discuss the limitations of current models and identify specific observational signatures that future multiwavelength and multi-messenger observations could provide to discriminate between competing explanations. Continued study of similar events with next-generation facilities will be crucial for resolving these challenges and advancing our understanding of extreme particle acceleration in astrophysical environments.
title Multi-TeV Gamma Rays from GRB 221009A: Challenges for Emission Mechanisms, EBL Opacity, and Fundamental Physics
topic High Energy Astrophysical Phenomena
url https://arxiv.org/abs/2508.09948