Probing neutrino magnetic moments and the XENON1T excess with coherent elastic solar neutrino scattering

Abstract

The detection potential of the active neutrino magnetic moment (aMM) and the active sterile transition magnetic moment (sMM) of the solar neutrino CE process in future Dark Matter direct detection experiments is studied and compared with the respective allowed range to explain the Xenon1T excess. We find that the sensitivity to the aMM approaches to the level between 10-10μB and 10-11μB, which is dominantly limited by the detection threshold. On the other hand, the future solar neutrino CE detection would be powerful in probing the sMM for the sterile neutrino mass below 10 MeV, which could unambiguously test the sMM explanation of the Xenon1T excess. The sensitivity in the general framework with both aMM and sMM contributions is also derived.