Intergenerational gauged B-L model and its implication to muon g-2 anomaly and thermal dark matter

Abstract

We study the flavor dependent U(1)Bi-Lj models, where an ith generation of quarks and j(≠ i)th generation of leptons are charged. By solving the anomaly free condition for the matter sector of the SM fermions and three generations of right-handed (RH) neutrinos, we find that the jth generation of RH neutrino is not necessarily charged under the U(1)Bi-Lj gauge symmetry with the charge -1 and the other (neither ith nor jth) generation of RH neutrino can also be. As a general solution for the anomaly cancellation conditions, the other two RN neutrinos than the charge -1 RH neutrino may have non-vanishing charge and be stable due to the gauge invariance, and hence it is a candidate for dark matter (DM) in our Universe. We apply this result to a B3-L2 model and consider a light thermal DM and a solution to the muon g-2 anomaly. We identify the parameter region to have the DM mass range from MeV to sub-GeV and simultaneously solve the muon g-2 anomaly. We also derive the constraints on the gauge kinetic mixing parameter by using the latest Borexino phase-II data.