Two Puzzles, One Solution: Neutrino Mass and Secluded Dark Matter

Abstract

We present a minimal secluded dark-matter (DM) framework based on an extra U(1)X gauge symmetry. The model contains a Dirac DM particle , three heavy neutrinos NI with masses MN,I, and a singlet scalar R that mixes with the Standard Model Higgs doublet by an angle α. A symmetry forbids the -R portal at tree level; the leading portal then arises at one loop from the same Yukawa structures that generate active neutrino masses m,I, implying (2α) ΣI m,I M2N,I/(vh mH2), where vh and mH are the SM Higgs VEV and mass. For heavy-neutrino masses in the multi-TeV range, this yields a naturally tiny mixing, (2α) 5× 10-11(MN/10~TeV)2, which strongly suppresses DM signals in direct, indirect, and collider searches. For PeV-scale heavy neutrinos the DM-nucleon cross section can instead enter the reach of direct-detection experiments. The visible and dark sectors thermalize at temperatures of order a few times the mass of the lightest heavy neutrino, then subsequently decouple, and typically evolve with a slightly hotter dark bath. In the secluded regime, with (2α) 1 and m>mHp, the relic density is set by p-wave annihilation Hp Hp (with Hp the Higgs-like particle of the dark sector), and the dark-sector Yukawa couplings required to reproduce the observed abundance are (0.1-1), as in the standard WIMP case. For heavy-neutrino masses 10~TeV, the mediator decays before nucleosynthesis without spoiling BBN observables, while the tiny portal suppresses present-day signals below current and near-future sensitivities. This links two long-standing puzzles, the absence of DM signals and the smallness of neutrino masses, within a predictive thermal framework.

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