Detecting warm DM in the MeV/c2 range

Abstract

Some tension exists between present experimental data and models which comprise only the three light neutrino mass eigenstates necessary to explain solar and atmospheric oscillation results. Hence the revival of the idea that additional more massive states might enter the active neutrino superpositions produced and observed in charged current reactions. Such 'heavy' neutrinos with masses in the keV or MeV range might also be of interest as dark matter candidates. A state with mass larger than 1022 keV could decay into an e+ e- pair and a light mass state, leaving an easily recognizable signature. The aim of this paper is to estimate the possible signal rate.