Discovering a light charged Higgs boson via W * + 4b final states at the LHC

Abstract

Most of the current experimental searches for charged Higgs bosons at the Large Hadron Collider (LHC) concentrate upon the tb and τ decay channels. In the present study, we analyze instead the feasibility of the bosonic decay channel W * h, with the charged gauge boson being off-shell and h being a neutral light Higgs boson, which decays predominantly into bb. We perform a Monte Carlo (MC) analysis for the associate production of a charged Higgs with such a light neutral one, pp H h, at the LHC followed by the aforementioned charged Higgs boson decay, which leads to a W * +4b final state. The analysis is performed within the 2-Higgs Doublet Model (2HDM) with Yukawa texture of Type-I. We take into account all available experimental constraints from LEP, Tevatron and the LHC as well as the theoretical requirements of self-consistency of this scenario. In order to study the full process pp → H h → W * h h → + 4b (=e,μ), we provide several Benchmark Points (BPs) amenable to further analysis, with MH+Mb < Mt, for which we prove that there is a strong possibility that this spectacular signal could be found at the LHC with center of mass energy 14 TeV and luminosity 300 fb-1.