Analysis of final state lepton polarization-dependent observables in H +- γ in the SM at loop level

Abstract

Recently, the CMS and ATLAS collaborations have announced the results for H→ Z[→ +-]γ with =e or μ CMS:2022ahq,CMS:2023mku, where H→ Zγ is a sub-process of H→ + - γ. This semi-leptonic Higgs decay receives loop induced resonant H→ Z[→ +-]γ as well as non-resonant contributions. % as discussed in Kachanovich:2021pvx. To probe further features coming from these contributions to H→ + - γ, we argue that the polarization of the final state leptons is also an important parameter. We show that the contribution from the interference of resonant and non-resonant terms plays an important role when the polarization of final state lepton is taken into account, which is negligible in the case of unpolarized leptons. For this purpose, we have calculated the polarized decay rates and the longitudinal (PL), normal (PN) and transverse (PT) polarization asymmetries. We find that these asymmetries purely come from the loop contributions and are helpful to further investigate the resonant and non-resonant nature of H→ Z[→ +-]γ decay. We observe that for =e,μ, the longitudinal decay rate is highly suppressed around m≈ 60GeV when the final lepton spin is -12, dramatically increasing the corresponding lepton polarization asymmetries. Furthermore, we analyze another observable, the ratio of decay rates R'i, where and ' refer to different final state lepton generations. Precise measurements of these observables at the HL-LHC and the planned e+e- can provide a fertile ground to test not only the SM but also to examine the signatures of possible NP beyond the SM.