keV scale R dark matter and its detection in β decay experiment

Abstract

We study dark matter(DM) in the model with one keV scale right-handed neutrino R1 and two GeV scale right-handed neutrinos R2,3, the . We find that one of the GeV scale right-handed neutrinos can have much longer lifetime than the other when two GeV scale right-handed neutrinos are degenerate. We show that mass and mixing of light neutrinos can be explained in this case. Significant entropy release can be generated in a reheating produced by the decay of one of the GeV scale R. The density of R1 DM can be diluted by two orders of magnitude and the mixing of R1 with active neutrinos is allowed to be much larger, reaching the bound from X-ray observation. This mixing can lead to sizeable rate of R1 capture by radioactive nuclei. The R1 capture events are mono-energetic electrons with keV scale energy away from the beta decay spectrum. This is a new way to detect DM in the universe.