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Main Authors: Guo, Shu-Yuan, Zhao, Man-Yu
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2508.16362
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author Guo, Shu-Yuan
Zhao, Man-Yu
author_facet Guo, Shu-Yuan
Zhao, Man-Yu
contents We study a feebly interacting massive particle realization of the Scotogenic Dirac Model in which the lightest neutral fermion $N_1$ serves as a dark matter candidate, produced via the freeze-in or super-WIMP mechanism. The model generates Dirac neutrino masses at one loop, resulting in a rank-2 mass matrix that predicts one nearly massless neutrino. We analyze the DM relic density for various next-to-lightest odd particles (NLOPs), finding that coannihilation effects and enhanced annihilation channels are crucial for achieving the correct thermal freeze-out abundance of the NLOP. We provide a detailed analysis of the model's implications for the effective number of relativistic species, $ΔN_{\mathrm{eff}}$, which receives contributions from both a thermal bath of right-handed neutrinos and non-thermal energy injection due to late NLOP decays. Through an extensive parameter scan, we identify viable parameter space for all NLOP candidates that satisfies constraints from DM relic density, lepton flavor violation, Big Bang Nucleosynthesis, Cosmic Microwave Background, and $ΔN_{\mathrm{eff}}$.
format Preprint
id arxiv_https___arxiv_org_abs_2508_16362
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Probing the Scotogenic Dirac Model with FIMP Dark Matter and $ΔN_{\rm eff}$
Guo, Shu-Yuan
Zhao, Man-Yu
High Energy Physics - Phenomenology
We study a feebly interacting massive particle realization of the Scotogenic Dirac Model in which the lightest neutral fermion $N_1$ serves as a dark matter candidate, produced via the freeze-in or super-WIMP mechanism. The model generates Dirac neutrino masses at one loop, resulting in a rank-2 mass matrix that predicts one nearly massless neutrino. We analyze the DM relic density for various next-to-lightest odd particles (NLOPs), finding that coannihilation effects and enhanced annihilation channels are crucial for achieving the correct thermal freeze-out abundance of the NLOP. We provide a detailed analysis of the model's implications for the effective number of relativistic species, $ΔN_{\mathrm{eff}}$, which receives contributions from both a thermal bath of right-handed neutrinos and non-thermal energy injection due to late NLOP decays. Through an extensive parameter scan, we identify viable parameter space for all NLOP candidates that satisfies constraints from DM relic density, lepton flavor violation, Big Bang Nucleosynthesis, Cosmic Microwave Background, and $ΔN_{\mathrm{eff}}$.
title Probing the Scotogenic Dirac Model with FIMP Dark Matter and $ΔN_{\rm eff}$
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2508.16362