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Main Authors: Di Marco, Gaetano, Batista, Rafael Alves, Sánchez-Conde, Miguel Ángel
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2408.08818
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author Di Marco, Gaetano
Batista, Rafael Alves
Sánchez-Conde, Miguel Ángel
author_facet Di Marco, Gaetano
Batista, Rafael Alves
Sánchez-Conde, Miguel Ángel
contents Recent gamma-ray observations have detected photons up to energies of a few PeV. These highly energetic gamma rays are emitted by the most powerful sources in the Galaxy. Propagating over astrophysical distances, gamma rays might interact with background photons producing electron-positron pairs, then deflected by astrophysical magnetic fields. In turn, these charged particles might scatter through inverse Compton galactic radiation fields, triggering electromagnetic cascades. In this scenario, the characterisation of astrophysical environment in which gamma rays travel, specifically background photons and magnetic fields, is crucial. We explore the impact of propagation effects on observables at Earth by simulating galactic sources emitting gamma rays with energy between $100 \; \text{GeV}$ and $100 \; \text{PeV}$. We analyse the imprint of the galactic environment on observed energy spectra and arrival direction maps, revealing gamma-ray absorption features in the former and ``deflection" of gamma rays in the latter. Specifically, owing to interstellar radiation field spatial distribution and the galactic magnetic field structure, propagation effects on observables are found to be related to the specific gamma-ray source position and to the prompt emission model. Detailed investigations of the propagation effect on galactic gamma rays will improve the robustness of both current and future gamma-ray detections and indirect dark matter searches.
format Preprint
id arxiv_https___arxiv_org_abs_2408_08818
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Revisiting the propagation of highly-energetic gamma rays in the Galaxy
Di Marco, Gaetano
Batista, Rafael Alves
Sánchez-Conde, Miguel Ángel
High Energy Astrophysical Phenomena
Recent gamma-ray observations have detected photons up to energies of a few PeV. These highly energetic gamma rays are emitted by the most powerful sources in the Galaxy. Propagating over astrophysical distances, gamma rays might interact with background photons producing electron-positron pairs, then deflected by astrophysical magnetic fields. In turn, these charged particles might scatter through inverse Compton galactic radiation fields, triggering electromagnetic cascades. In this scenario, the characterisation of astrophysical environment in which gamma rays travel, specifically background photons and magnetic fields, is crucial. We explore the impact of propagation effects on observables at Earth by simulating galactic sources emitting gamma rays with energy between $100 \; \text{GeV}$ and $100 \; \text{PeV}$. We analyse the imprint of the galactic environment on observed energy spectra and arrival direction maps, revealing gamma-ray absorption features in the former and ``deflection" of gamma rays in the latter. Specifically, owing to interstellar radiation field spatial distribution and the galactic magnetic field structure, propagation effects on observables are found to be related to the specific gamma-ray source position and to the prompt emission model. Detailed investigations of the propagation effect on galactic gamma rays will improve the robustness of both current and future gamma-ray detections and indirect dark matter searches.
title Revisiting the propagation of highly-energetic gamma rays in the Galaxy
topic High Energy Astrophysical Phenomena
url https://arxiv.org/abs/2408.08818