b→ s μ+ μ- anomalies and related phenomenology in U(1)B3 - xμ Lμ - xτ Lτ flavor gauge models

Abstract

We propose a generation dependent lepton/baryon gauge symmetry, U(1)B3 - xμ Lμ - xτ Lτ U(1)X (with xμ + xτ =1 for anomaly cancellation), as a possible solution for the b → s μ+ μ- anomalies. By introducing two Higgs doublet fields, we can reproduce the observed CKM matrix, and generate flavor changing Z' interactions in the quark sector. Thus one can explain observed anomalies in b s + - decay with the lepton non-universal U(1)X charge assignments. We show the minimal setup explaining b s + - anomalies, neutrino masses and mixings and dark matter candidate, taking into account experimental constraints of flavor physics such as charged lepton flavor violations and the Bs-- Bs mixing. Finally we discuss collider physics focusing on Z' production at the Large Hadron Collider and relic density of our dark matter candidate.