Higgs boson decays to a fermion pair and a polarized Z boson at NLO accuracy

Abstract

In this paper, we investigate the Higgs boson decay process H ffZ ffμ-μ+, where f denotes any light fermions, at the next-to-leading order (NLO) accuracy. The calculation is performed within the framework of single-pole approximation, in which the contributions of different polarization states of the Z boson are considered separately. Numerical results show that, by taking appropriate cut, the non-resonant background is negligible, and the NLO corrections are 1\%--4\% of the LO contributions. We also find that the inclusion of NLO corrections can greatly reduce the dependence on the electroweak coupling scheme, and enhance the prediction reliability. We formulate a method for the extraction of the pseudo-observable H ffZ from the ffμ-μ+ signal.