keV scale $ν_R$ dark matter and its detection in $β$ decay experiment

Details keV scale $ν_R$ dark matter and its detection in $β$ decay experiment keV scale $ν_R$ dark matter and its detection in $β$ decay experiment

2010-05-19

arxiv.org/abs/1005.3351v2

Physics

High Energy Physics

High Energy Physics - Phenomenology

12 pages; references added; version to appear in PRD

Scientific paper

We study dark matter(DM) in the model with one keV scale right-handed neutrino $\nu_{R1}$ and two GeV scale right-handed neutrinos $\nu_{R2,3}$, the $\nu$SM. 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 $\nu_{R}$. The density of $\nu_{R1}$ DM can be diluted by two orders of magnitude and the mixing of $\nu_{R1}$ with active neutrinos is allowed to be much larger, reaching the bound from X-ray observation. This mixing can lead to sizeable rate of $\nu_{R1}$ capture by radioactive nuclei. The $\nu_{R1}$ 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.

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