Probing chirality structure in lepton-flavour-violating Higgs decay hτμ at the LHC

Abstract

A phenomenological study for determining the chirality structure in lepton-flavor-violating Higgs (hLFV) decays h τμ at the LHC is presented. We estimate the effects of the τ polarization in the analysis andthe importance of determining the relative visible momentum ratio x, and show the analysis with a collinear mass mcol1 by assuming one missing particle is appropriate. We find that the sensitivity would be generically affected up to 4-6~\% in terms of the BR(h τμ) upper bound, and show the altered bounds on the (|yμτ|, |yτμ|) plane. We further study the benchmark scenarios, and demonstrate the sensitivity study for the chirality structure using the relative visible momentum ratio. We find that the two fully polarized cases, the τR and τL scenarios consistent with the recently reported excess, are distinguishable at 2σ level for 1000~fb-1. We also show that a further improved study potentially provides a similar sensitivity already for 139~fb-1.