@article{oai:nagoya.repo.nii.ac.jp:00022846,
 author = {Omura, Yuji and Senaha, Eibun and Tobe, Kazuhiro},
 journal = {Physical Review D},
 month = {Sep},
 note = {Motivated by the recent CMS excess in a flavor violating Higgs decay h→μτ as well as the anomaly of muon anomalous magnetic moment (muon g−2), we consider a scenario where both the excess in h→μτ 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→μγ can be within the reach of the Belle II experiment. We also show that the lepton nonuniversality between τ→μνν¯ and τ→eνν¯ 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→μl+l− (l=e,μ), τ→μη, μ→eγ, μ→3e, and the muon electric dipole moment can be accessible, depending on the unknown Yukawa couplings. On the other hand, the processes like τ→eγ and τ→el+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 the h→μτ decay mode, the lepton flavor violating Higgs boson decay modes h→eμ and h→eτ are strongly suppressed, and hence it will be difficult to observe these modes at the LHC experiment.},
 pages = {055019--055019},
 title = {τ- and μ-physics in a general two Higgs doublet model with μ−τ flavor violation},
 volume = {94},
 year = {2016}
}