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Main Authors: Wang, Isaac R., Xu, Xun-Jie
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2312.17151
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author Wang, Isaac R.
Xu, Xun-Jie
author_facet Wang, Isaac R.
Xu, Xun-Jie
contents Neutrinos are often considered as a portal to new physics beyond the Standard Model (SM) and might possess phenomenologically interesting interactions with dark matter (DM). This paper examines the cosmological imprints of DM that interacts with and is produced from SM neutrinos at temperatures below the MeV scale. We take a model-independent approach to compute the evolution of DM in this framework and present analytic results which agree well with numerical ones. Both freeze-in and freeze-out regimes are included in our analysis. Furthermore, we demonstrate that the thermal evolution of neutrinos might be substantially affected by their interaction with DM. We highlight two distinctive imprints of such DM on neutrinos: (i) a large, negative contribution to $N_{\rm eff}$, which is close to the current experimental limits and will readily be probed by future experiments; (ii) spectral distortion of the cosmic neutrino background (C$ν$B) due to DM annihilating into neutrinos, a potentially important effect for the ongoing experimental efforts to detect C$ν$B.
format Preprint
id arxiv_https___arxiv_org_abs_2312_17151
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Imprints of light dark matter on the evolution of cosmic neutrinos
Wang, Isaac R.
Xu, Xun-Jie
High Energy Physics - Phenomenology
Cosmology and Nongalactic Astrophysics
Neutrinos are often considered as a portal to new physics beyond the Standard Model (SM) and might possess phenomenologically interesting interactions with dark matter (DM). This paper examines the cosmological imprints of DM that interacts with and is produced from SM neutrinos at temperatures below the MeV scale. We take a model-independent approach to compute the evolution of DM in this framework and present analytic results which agree well with numerical ones. Both freeze-in and freeze-out regimes are included in our analysis. Furthermore, we demonstrate that the thermal evolution of neutrinos might be substantially affected by their interaction with DM. We highlight two distinctive imprints of such DM on neutrinos: (i) a large, negative contribution to $N_{\rm eff}$, which is close to the current experimental limits and will readily be probed by future experiments; (ii) spectral distortion of the cosmic neutrino background (C$ν$B) due to DM annihilating into neutrinos, a potentially important effect for the ongoing experimental efforts to detect C$ν$B.
title Imprints of light dark matter on the evolution of cosmic neutrinos
topic High Energy Physics - Phenomenology
Cosmology and Nongalactic Astrophysics
url https://arxiv.org/abs/2312.17151