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Main Authors: Bianco, Sara, Depta, Paul Frederik, Frerick, Jonas, Hambye, Thomas, Hufnagel, Marco, Schmidt-Hoberg, Kai
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2505.01492
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author Bianco, Sara
Depta, Paul Frederik
Frerick, Jonas
Hambye, Thomas
Hufnagel, Marco
Schmidt-Hoberg, Kai
author_facet Bianco, Sara
Depta, Paul Frederik
Frerick, Jonas
Hambye, Thomas
Hufnagel, Marco
Schmidt-Hoberg, Kai
contents We perform a detailed study of the cosmological constraints on the decay of a relic particle $ϕ$ into neutrinos, $ϕ\rightarrow ν\barν$, in particular those arising from the observed light-element abundances in the early Universe. We focus on the late-time disintegration of the light elements previously synthesised during BBN. Several processes are relevant, including final-state radiation associated with the decay, as well as subsequent interactions of the injected neutrinos with the thermal background neutrinos or between themselves. All processes generically contribute to the production of electromagnetic and often also hadronic material and may therefore induce late-time photodisintegration and hadrodisintegration reactions, i.e.~the destruction of light elements that have previously been formed during BBN. Here, we examine this scenario with a Monte-Carlo inspired probabilistic approach rather than Boltzmann techniques, taking into account all of these different reactions as well as their interplay. We find the resulting constraints to be very significant, covering a broad range of previously unexplored masses and lifetimes of the relic source particle.
format Preprint
id arxiv_https___arxiv_org_abs_2505_01492
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Photo- and Hadrodisintegration constraints on massive relics decaying into neutrinos
Bianco, Sara
Depta, Paul Frederik
Frerick, Jonas
Hambye, Thomas
Hufnagel, Marco
Schmidt-Hoberg, Kai
High Energy Physics - Phenomenology
Cosmology and Nongalactic Astrophysics
We perform a detailed study of the cosmological constraints on the decay of a relic particle $ϕ$ into neutrinos, $ϕ\rightarrow ν\barν$, in particular those arising from the observed light-element abundances in the early Universe. We focus on the late-time disintegration of the light elements previously synthesised during BBN. Several processes are relevant, including final-state radiation associated with the decay, as well as subsequent interactions of the injected neutrinos with the thermal background neutrinos or between themselves. All processes generically contribute to the production of electromagnetic and often also hadronic material and may therefore induce late-time photodisintegration and hadrodisintegration reactions, i.e.~the destruction of light elements that have previously been formed during BBN. Here, we examine this scenario with a Monte-Carlo inspired probabilistic approach rather than Boltzmann techniques, taking into account all of these different reactions as well as their interplay. We find the resulting constraints to be very significant, covering a broad range of previously unexplored masses and lifetimes of the relic source particle.
title Photo- and Hadrodisintegration constraints on massive relics decaying into neutrinos
topic High Energy Physics - Phenomenology
Cosmology and Nongalactic Astrophysics
url https://arxiv.org/abs/2505.01492