Role of λhH+H- in Higgs boson decays h to bs in the 2HDM

Abstract

Within the Two Higgs Doublet Model (2HDM) with CP conservation and a softly broken Z2 symmetry, we analyze the flavor changing Higgs decays h bs (bs refers jointly to the two decay channels b s and b s), where h is identified with the SM-like Higgs boson discovered at the LHC. We provide a comprehensive study of the decay width (h bs) with particular focus on the most relevant effects from the triple Higgs coupling λhH+H-. Furthermore, we consider all the relevant theoretical and experimental constraints to determine which predictions for the BR(h bs) are still allowed by the current data. We find that the predictions for BR(h bs) in types II and III can be several orders of magnitude smaller compared to the SM value. In contrast, in type I and IV we find that the predicted enhancements in the decay rates with respect to the SM of up to about 70% and 50%, respectively, are still allowed. We discuss how these deviations from the SM are caused by interference effects controlled by the coupling λhH+H- which can be large for very heavy H. To better understand the role of λhH+H- in the h bs decay we derive and analyze here the analytical results for the hbs one-loop effective vertex that is generated by integrating out the heavy H.