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Main Authors: Vícha, Jakub, Bakalová, Alena, Müller, Ana L., Tkachenko, Olena, Stadelmaier, Maximilian K.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2504.11985
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author Vícha, Jakub
Bakalová, Alena
Müller, Ana L.
Tkachenko, Olena
Stadelmaier, Maximilian K.
author_facet Vícha, Jakub
Bakalová, Alena
Müller, Ana L.
Tkachenko, Olena
Stadelmaier, Maximilian K.
contents The mass composition of ultra-high-energy cosmic rays is an open problem in astroparticle physics. It is usually inferred from the depth of the shower maximum (Xmax) of cosmic-ray showers, which is only ambiguously determined by modern hadronic interaction models. We examine a data-driven scenario, in which we consider the expectation value of Xmax as a free parameter. We test the novel hypothesis whether the cosmic-ray data from the Pierre Auger Observatory can be interpreted in a consistent picture, under the assumption that the mass composition of cosmic rays at the highest energies is dominated by high metallicity, resulting in pure iron nuclei at energies above ~40 EeV. We investigate the implications on astrophysical observations and hadronic interactions, and we discuss the global consistency of the data assuming this heavy-metal scenario. We conclude that the data from the Pierre Auger Observatory can be interpreted consistently if the expectation values for Xmax from modern hadronic interaction models are shifted to larger values.
format Preprint
id arxiv_https___arxiv_org_abs_2504_11985
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A Heavy-Metal Scenario of Ultra-High-Energy Cosmic Rays
Vícha, Jakub
Bakalová, Alena
Müller, Ana L.
Tkachenko, Olena
Stadelmaier, Maximilian K.
High Energy Astrophysical Phenomena
The mass composition of ultra-high-energy cosmic rays is an open problem in astroparticle physics. It is usually inferred from the depth of the shower maximum (Xmax) of cosmic-ray showers, which is only ambiguously determined by modern hadronic interaction models. We examine a data-driven scenario, in which we consider the expectation value of Xmax as a free parameter. We test the novel hypothesis whether the cosmic-ray data from the Pierre Auger Observatory can be interpreted in a consistent picture, under the assumption that the mass composition of cosmic rays at the highest energies is dominated by high metallicity, resulting in pure iron nuclei at energies above ~40 EeV. We investigate the implications on astrophysical observations and hadronic interactions, and we discuss the global consistency of the data assuming this heavy-metal scenario. We conclude that the data from the Pierre Auger Observatory can be interpreted consistently if the expectation values for Xmax from modern hadronic interaction models are shifted to larger values.
title A Heavy-Metal Scenario of Ultra-High-Energy Cosmic Rays
topic High Energy Astrophysical Phenomena
url https://arxiv.org/abs/2504.11985