Decays A Zγγ and φ Zγγ (φ=h,H) in two-Higgs doublet models

Abstract

The one-loop contributions to the decays of the CP-odd and CP-even scalar bosons A Zγγ and φ Zγγ (φ=h,H) are calculated within the framework of CP-conserving THDMs, where they are induced by box and reducible Feynman diagrams. The behavior of the corresponding branching ratios are then analyzed within the type-II THDM in a region of the parameter space around the alignment limit and still consistent with experimental data. It is found that the A Zγγ branching ratio is only relevant when mA>mH+mZ, but it is negligible otherwise. For mA>600 GeV and tβ O(1), BR(A Zγγ) can reach values of the order of 10-5-10-4, but it decreases by about one order of magnitude as tβ increases up to 10. A similar behavior is followed by the H Zγγ decay, which only has a non-negligible branching ratio when mH>mA+mZ and can reach the level of 10-4-10-3 for mH>600 GeV and tβ O(1). We also estimated the branching ratios of these rare decays in the type-I THDM, where they can be about one order of magnitude larger than in type-II THDM. As far as the h Zγγ decay is concerned, since the properties of this scalar boson must be nearly identical to those of the SM Higgs boson, the h Zγγ branching ratio does not deviates significantly from the SM prediction, where it is negligibly small, of the order of 10-9. This result is in agreement with previous calculations.