Charged Higgs decays in models with singlet neutrino in large extra dimensions
arXiv:hep-ph/0006122 · doi:10.1016/S0370-2693(00)00941-2
Abstract
In models with large extra dimensions and TeV scale quantum gravity, small (Dirac) neutrino masses can be obtained naturally if the right-handed neutrino propagates in the extra dimensions. In this scenario, with 2 Higgs doublets, we show that the decay of charged Higgs into {\em left-handed} charged lepton (say Ï) and right-handed neutrino can be significantly enhanced, with O(1) branching ratio, due to the large number of Kaluza-Klein states of the right-handed neutrino. Since Ï's from the standard decay of charged Higgs are {\em right-handed}, the above novel charged Higgs decay can provide a distinctive signature of these models at hadron/lepton colliders. Similarly, top quark decays to b μ^+ ν, b Ï^+ νthrough virtual charged Higgs can be enhanced.
LaTeX, 14 pages, 2 ps figures. In the revised version, we have taken into account the SN1987a constraint on the size of the extra dimension; the effect on charged Higgs decays can still be observed