The Coming Decade of h τμ and τ μγ Interplay in τ Flavor Violation Search

Abstract

We explore the interplay between h(125) τμ search at the LHC and τ μγ at the up and coming Belle~II experiment, in context of the general two Higgs doublet model with extra Yukawa couplings such as τμ. The search for h τμ constrains τμ γ, where γ is the h--H mixing angle of h with the exotic CP-even scalar H. For τ μγ, we define the "BSM-benchmark" by setting the extra top Yukawa coupling tt = 1\ ( λt) in two-loop diagrams, and γ = 0 to decouple h. We show that this leading effect due to H and CP-odd scalar A can be readily probed by Belle~II, even for the conservative value of τμ = 0.7λτ. We define the subleading "h-benchmark" by setting tt = 0 in two-loop diagrams, and take the conservative maximal value of γ = 0.2. We show that it falls beyond Belle~II reach, but can interfere with the BSM-benchmark effect, which in principle probes the phase of tt. We further show that the one-loop H, A effect, proportional to τμττ in amplitude, is beyond the sensitivity of Belle~II to probe, even for ττ as large as 3λτ. With the working assumption that 32f, 33f = O(λ3f) for all charged fermions f, we find good discovery potential for both τ lepton flavor violation searches in the coming decade.