Lμ -Lτ gauge-boson production from lepton flavor violating τ decays at Belle II

Abstract

Lμ -Lτ gauge boson (Z') with a mass in the MeV to GeV region can resolve not only the muon g-2 excess, but also the gap in the high-energy cosmic neutrino spectrum at IceCube. It was recently proposed that such a light gauge boson can be detected during the Belle II experiment with a luminosity of 50 ab-1 by the e+ e- γ +E process through the kinetic mixing with the photon, where the missing energy E is from the Z' decays. We study the phenomenological implications when a pair of singlet vector-like leptons carrying different Lμ - Lτ charges are included, and a complex singlet scalar (φS) is introduced to accomplish the spontaneous U(1)Lμ -Lτ symmetry breaking. It is found that the extension leads to several phenomena of interest, including (i) branching ratio (BR) for h μ τ can be of the order of 10-3; (ii) φS-mediated muon g-2 can be of the order of 10× 10-10; (iii) BR for τ μ φ*S μ Z'Z' can be 10-8, and (iv) kinetic mixing between the Z' boson and photon is sensitive to the relative heavy lepton masses. The predicted BRs for τ (3μ+E, 5μ) through the leptonic Z' decays can reach a level of 10-9, in which the results fall within the sensitivity of the Belle II in the search for the rare tau decays.