Unveiling the MSSM Neutral Higgs Bosons with Leptons and a Bottom Quark

Abstract

We investigate the prospects for the discovery of neutral Higgs bosons produced with a bottom quark where the Higgs decays into a pair of tau leptons and the taus decay into an electron-muon pair, i.e. bg bφ0 bτ+τ- beμ + E\!\!\!/T, φ0 = h0, H0, A0. Our study has been done within the framework of the Minimal Supersymmetric Standard Model. We consider the dominant physics backgrounds including the production of Drell-Yan processes (bτ+τ- and jτ+τ-, j = q, g), top quark pair (tt), tW and jWW with realistic acceptance cuts and efficiencies. We present 5σ discovery contours for the neutral Higgs bosons in the (MA,β) plane as well as the region with a favored light Higgs mass (123 GeV mh 129 GeV). Promising results are found for the CP-odd pseudoscalar (A0) and the heavier CP-even scalar (H0) Higgs bosons with masses up to 800 GeV and β 50 at the LHC with a center of mass energy (s) of 14 TeV and an integrated luminosity (L) of 300 fb-1. With s = 14 TeV and L = 3000 fb-1, LHC will be able to discover the Higgs pseudoscalar and the heavier Higgs scalar beyond MA = 1000 GeV.