Impact of Galaxy Clusters on UHECR propagation
In: 2023 ApJ 957 80; (2023)
Online
report
Zugriff:
Galaxy clusters are the universe's largest objects in the universe kept together by gravity. Most of their baryonic content is made of a magnetized diffuse plasma. We investigate the impact of such magnetized environment on ultra-high-energy-cosmic-ray (UHECR) propagation. The intracluster medium is described according to the self-similar assumption, in which the gas density and pressure profiles are fully determined by the cluster mass and redshift. The magnetic field is scaled to the thermal components of the intracluster medium under different assumptions. We model the propagation of UHECRs in the intracluster medium using a modified version of the Monte Carlo code {\it SimProp}, where hadronic processes and diffusion in the turbulent magnetic field are implemented. We provide a universal parametrization that approximates the UHECR fluxes escaping from the environment as a function of the most relevant quantities, such as the mass of the cluster, the position of the source with respect to the center of the cluster and the nature of the accelerated particles. We show that galaxy clusters are an opaque environment especially for UHECR nuclei. The role of the most massive nearby clusters in the context of the emerging UHECR astronomy is finally discussed.
Comment: 12 pages, 6 figures, resived by ApJ
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Impact of Galaxy Clusters on UHECR propagation
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Autor/in / Beteiligte Person: | Condorelli, Antonio ; Biteau, Jonathan ; Adam, Remi |
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Quelle: | 2023 ApJ 957 80; (2023) |
Veröffentlichung: | 2023 |
Medientyp: | report |
DOI: | 10.3847/1538-4357/acfeef |
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