Physics – High Energy Physics – High Energy Physics - Phenomenology
Scientific paper
2011-12-19
Phys.Lett.B710:665-670,2012
Physics
High Energy Physics
High Energy Physics - Phenomenology
Version in PLB (discussion and refs added)
Scientific paper
10.1016/j.physletb.2012.03.052
We examine the parameter space of the constrained MSSM by considering various experimental constraints. For the dark matter sector, we require the neutralino dark matter to account for the relic density measured by the WMAP and satisfy the XENON limits on its scattering rate with the nucleon. For the collider constraints, we consider all relevant direct and indirect limits from LEP, Tevatron and LHC as well as the muon anomalous magnetic moment. Especially, for the limits from B_s->\mu^+\mu^-, we either directly consider its branching ratio with the latest LHC data or alternatively consider the double ratio of the purely leptonic decays defined by [Br(B_s->\mu^+\mu^-)/Br(B_u->\tau \nu_\tau)]/[Br(D_s->\tau \nu_\tau)/Br(D->\tau \mu_\tau)]. We find that under these constraints, the mass of the lightest Higgs boson (h) in both the CMSSM and the NUHM2 is upper bounded by about 124 GeV (126 GeV) before (after) considering its theoretical uncertainty. We also find that for these models the di-photon Higgs signal at the LHC is suppressed relative to the SM prediction, and that the lower bound of the top-squark mass goes up with m_h, reaching 600 GeV for m_h=124 GeV.
Cao Junjie
Heng Zhaoxia
Li Dongwei
Yang Jin Min
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