Exploring neutralino dark matter resonance annihilation via bA,bH -> b mu+ mu- at the LHC

Abstract

One of the main channels which allows for a large rate of neutralino dark matter annihilation in the early Universe is via the pseudoscalar Higgs A-resonance. In this case, the measured dark matter abundance can be obtained in the minimal supergravity (mSUGRA) model when tan(beta) 50 and 2m_1 mA. We investigate the reaction pp bφ bμ+μ- +X (where φ =A or H) at the CERN LHC where requiring the tag of a single b-jet allows for amplification of the signal-to-background ratio. The rare but observable Higgs decay to muon pairs allows for a precise measurement of the Higgs boson mass and decay width. We evaluate signal and background using CalcHEP, with muon energy smearing according to the CMS detector. We find that the Higgs width (A) can typically be determined with the accuracy up to 8% ( 17%) for mA 400 (600) GeV assuming 103 fb-1 of integrated luminosity. Therefore, the pp bφ bμ+μ- +X process provides a unique possibility for direct A measurement at the LHC. While the Higgs width is correlated with the parameter β for a given value of mA, extracting β is complicated by an overlap of the A and H peaks, radiative corrections to the b and τ Yukawa couplings, and the possibility that SUSY decay modes of the Higgs may be open. In the case where a dilepton mass edge from 2+-1 is visible, it should be possible to test the relation that 2m_1 mA.