%0 Journal Article
%T Charged Higgs Discovery in the W plus "Dark" Vector Boson Decay Mode
%A Hooman Davoudiasl
%A William J. Marciano
%A Raymundo Ramos
%A Marc Sher
%J Physics
%D 2014
%I arXiv
%R 10.1103/PhysRevD.89.115008
%X In Two Higgs doublet extensions of the Standard Model, flavor-changing neutral current constraints can be addressed by introducing a U(1)' gauge symmetry, under which the Higgs doublets carry different charges. That scenario implies the presence of a H^\pm W^\mp Z' vertex at tree level. For the light "dark" Z model (Z'=Z_d) with m_{Z_d} < 10 GeV, such a coupling leads to the dominant decay mode H^\pm \to W^\pm + Z_d (for m_{H^\pm} \lsim 175 GeV), rather than the usual type I model decay H^\pm \to \tau^\pm \nu, for a broad range of parameters. We find that current analyses do not place significant bounds on this scenario. Over much of the parameter space considered, the decay of a pair-produced t ({\bar t}) into H^+ b (H^- {\bar b}) provides the dominant H^\pm production. Analysis of available LHC data can likely cover significant ranges of our parameters, if Z_d \to \mu^+\mu^- has a branching ratio of \sim 20%. If the Z_d decays mainly invisibly then probing the entire relevant parameter space would likely require additional data from future LHC runs. We briefly discuss the phenomenology for m_{H^\pm}\gsim 175 GeV.
%U http://arxiv.org/abs/1401.2164v2