Charged Higgs in MSSM and Beyond

Abstract

We conduct a numerical study over the constrained MSSM (CMSSM), Next-to-MSSM (NMSSM) and U(1) extended MSSM (UMSSM) to probe the allowed mass ranges of the charged Higgs boson and its dominant decay patterns, which might come into prominence in near future collider experiments. We present results obtained from a limited scan for CMSSM as a basis and compare its predictions with the extended models. We observe within our data that a wide mass range is allowed as 0.5(1) mH 17 TeV in UMSSM (NMSSM). We find that the dominant decay channel is mostly H→ tb such that BR(H→ tb) 80\%. While this mode remains dominant over the whole allowed parameter space of CMSSM, we realize some special domains in the NMSSM and UMSSM, in which BR(H→ tb) 10\%. In this context, the decay patterns of the charged Higgs can play a significant role to distinguish among the SUSY models. In addition to the tb decay mode, we find that the narrow mass scale in CMSSM allows only the decay modes for the charged Higgs boson to τ ( 16\%), and their supersymmetric partners τ ( 13\%). On the other hand, it is possible to realize the mode in NMSSM and UMSSM in which the charged Higgs boson decays into a chargino and neutralino pair up to about 25\%. This decay mode requires non-universal boundary conditions within the MSSM framework to be available, since CMSSM yields BR (H→ 101) 1\%. It can also be probed in near future collider experiments through the missing energy and CP-violation measurements...