Enhanced Four-Body Decays of Charged Higgs Bosons into Off-Shell Pseudoscalar Higgs and W Boson Pairs in a Lepton-Specific 2-Higgs Doublet Model

Abstract

We study the time-honoured decay H A W but for the first time, we do so for the case of both A and W being off-shell, therefore computing a 1 4 body decay. We show that the corresponding decay rate not only extends the reach of H searches to small masses of the latter but also that the results of our implementation differ significantly from the yield of the 13 body decay over the phase space region in which the latter is normally used. We show the phenomenological relevance of this implementation in the case of the so-called lepton-specific 2-Higgs Doublet Model (2HDM) over the mass region wherein the aforementioned 1 4 body decay can dominate just beyond the top (anti)quark mass. This mass region is accessible in the lepton-specific 2HDM as the Yukawa couplings are such that limits from b s γ and τ μ τ μ observables on MH are rather mild. However, we emphasise that similar effects may occur in other 2HDM types, as the W H A vertex is 2HDM type independent.