τ- and μ-physics in a general two Higgs doublet model with μ-τ flavor violation

Abstract

Motivated by the recent CMS excess in a flavor violating Higgs decay h → μ τ as well as the anomaly of muon anomalous magnetic moment (muon g-2), we consider a scenario where both the excess in h → μ τ and the anomaly of muon g-2 are explained by the μ-τ flavor violation in a general two Higgs doublet model. We study various processes involving μ and τ, and then discuss the typical predictions and constraints in this scenario. Especially, we find that the prediction of τ → μ γ can be within the reach of the Belle II experiment. We also show that the lepton non-universality between τ → μ and τ → e can be sizable, and hence the analysis of the current Belle data and the future experimental improvement would have an impact on this model. Besides, processes such as τ → μ l+ l-~(l=e,~μ), τ → μ η, μ → e γ, μ → 3e, and muon EDM can be accessible, depending on the unknown Yukawa couplings. On the other hand, the processes like τ → e γ and τ → e l+ l-~ (l=e,~μ) could not be sizable to observe because of the current strong constraints on the e-μ and e-τ flavor violations. Then we also conclude that contrary to h → μ τ decay mode, the lepton flavor violating Higgs boson decay modes h→ e μ and h→ eτ are strongly suppressed, and hence it will be difficult to observe these modes at the LHC experiment.