Shinning Light on Sterile Neutrino Portal Dark Matter from Cosmology and Collider

Abstract

Provided the dark sector consisted of a dark scalar φ and a dark fermion under an exact Z2 symmetry, the sterile neutrino N can act as the messenger between the dark sector and standard model via the Yukawa coupling λds φ N. In this paper, we focus on the specific scenario mN>mφ+m with being a FIMP dark matter. The decay width of dark scalar φ is doubly suppressed by the smallness of Yukawa coupling λds and mixing angle θ. The delayed decay φ will have a great impact on cosmological observables such as the Big Bang Nucleosynthesis, the Cosmic Microwave Background anisotropy power spectra, the effective number of relativistic neutrino species N eff and the energetic neutrino flux. Meanwhile, the sterile neutrino can generate displaced vertex signature at colliders when mN<mW. The dark scalar φ will also induce measurable Higgs invisible decay for relatively large quartic coupling. A comprehensive analysis of constraints from cosmology and collider is performed in this paper. We find that almost the whole parameter space with mN<mW is under the reach of future experiments.

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