Higgs photon associated production in a Two Higgs Doublet Type-II Seesaw Model at future electron-positron colliders

Abstract

We study the one-loop prediction for the single production of a SM-like Higgs boson in association with a photon in electron-positron collisions in the context of the two Higgs doublet type-II seesaw model (2HDMcT). We explore to what extent the new scalars in the 2HDMcT spectrum affect its production cross-section, the ratio Rγ h1 as well as the signal strengths Rγ Z and Rγ γ when h1 is identified with the observed SM Higgs boson within the 2HDMcT delimited parameter space. More specifically, we focus on e+e- h1γ process at one-loop, and analyzed how it evolves under a full set of theoretical constraints and the available experimental data, including B Xsγ limit at 95\% C.L. Our analysis shows that these observables are strongly dependent on the parameters of the model, especially the mixing angel α1, the potential parameters λ7, λ9, the trilinear Higgs couplings, with a noticeable sensitivity to α1. We found that σ (e+e- h1γ) can significantly be enhanced up to 8.1\,\,× 10-2 fb, thus exceeding the Standard Model prediction. Additionally, as a byproduct, we also observed that Rγ h1 is entirely correlated with both the h1γγ and h1γ Z signal strengths.