Luminous solar neutrinos II: Mass-mixing portals

Abstract

Solar neutrinos can be efficiently upscattered to MeV scale heavy neutral leptons (HNLs) within the Earth's mantle. HNLs can then decay to electron-positron pairs leading to energy deposition inside large-volume detectors. In this paper we consider mass-portal upscattering of solar neutrinos to HNLs of mass 20 MeV ≥ mN ≥ 2 me. The large volume of the Earth compensates for the long decay-length of the HNLs leading to observable rates of N→ α e+e- in large volume detectors. We find that searches for mantle-upscattered HNLs can set the novel limits on mixing with third generation leptons, |Uτ N| for masses in the MeV regime; sensitivity to mixing with first- and second-generation leptons is not competitive with existing search strategies.