Probing one-loop--induced decay channel H Wγ in the Two Higgs Doublet Models at muon-TeV colliders

Abstract

In this work, we study the one-loop--induced decay channel H → Wγ in the general R gauge within Two Higgs Doublet Models. We analytically verify the gauge invariance (-independence), ultraviolet finiteness, and renormalization-scale independence of the one-loop form factors, thereby confirming the consistency of our calculations. On the phenomenological side, we perform a parameter scan of the Type-I THDM and, based on the viable parameter space, evaluate the branching ratios of this decay process. Furthermore, we investigate charged Higgs pair production at muon-TeV colliders through the representative processes μ+μ- → H+H- → W+W- hγ and μ+μ- → γγ → H+H- → W+W- hγ, as typical applications of our results. The events for the processes are computed within the allowed parameter regions of the Type-I THDM. The corresponding signal significances are evaluated, including the relevant Standard Model backgrounds, at a center-of-mass energy of s = 3~TeV. With the high integrated luminosity expected at muon-TeV colliders, reaching up to L = 3000~fb-1, our analysis indicates that the signals can be detected with a statistical significance of 5σ for several benchmark scenarios in the viable parameter space of the Type-I THDM.