Sensitivity limits on heavy-light mixing |Uμ N|2 from lepton number violating B meson decays

Abstract

We consider the lepton number violating decays B μ μ π and B D(*) μ μ π which may be detected at LHCb and Belle-II experiments; and B μ μ e and B D(*) μ μ e decays which may be detected at Belle-II experiment. The projected total number of produced B mesons is 4.8 × 1012 at LHCb upgrade and 5 × 1010 at Belle-II. For the case that the above decays are not detected, we deduce the new upper bounds (sensitivity limits) for the mixing parameter |Uμ N|2 of heavy sterile neutrino with sub-eV light neutrino, as a function of the sterile neutrino mass in the interval 1.75 \ GeV < MN < 5.0 \ GeV. We take into account the probability of decay of the sterile neutrino N within the detector, taking as the effective detector length L=2.3 \ m at LCHb upgrade and L=1 \ m at Belle-II. In the interval 1.75 \ GeV < MN < 3 \ GeV, the most stringent bounds can be obtained with the decays B μ μ π at LHCb upgrade. The sensitivity limits are expected to be in general more stringent at LHCb upgrade than at Belle-II, principally because the number of produced B mesons in LHCb upgrade is expected to be by about two orders of magnitude larger than at Belle-II. We conclude that the LHCb upgrade and Belle-II experiments have the potential to either find a new heavy Majorana neutrino N, or to improve significantly the sensitivity limits (upper bounds) on the heavy-light mixing parameter |Uμ N|2, particularly in the mass range 1.75 \ GeV < MN < 3 \ GeV. This work is a continuation and refinement of our previous work [1] on the subject.