SUSY scale uncertainties in mb(mb): Br[Bs0 μ+μ-] and cMSSM

Abstract

We have studied the SUSY scale dependence of supersymmetric radiative corrections to bottom quark mass on the branching ratio of Bs0 μ+μ- and its impact on the cMSSM parameter space. The supersymmetric radiative corrections to bottom quark mass is in general evaluated at the SUSY scale, which is normally considered to be the geometric mean of stop masses. Then, the running of bottom quark mass is considered from the SUSY scale to the matching scale MW of the effective Hamiltonian which describes this decay. It is found that the branching ratio varies drastically with the SUSY scale. Typically the Br[Bs0 μ+μ-] untagged varies 0.6 × 10-9 due variation of bottom quark mass 35\% with the SUSY scale and these changes are very significant compared to their present uncertainties in the measurements. Moreover, these variations are very larger at the regions of parameter space which are favorable for producing higgs mass around 125 GeV. Finally, the confrontation of cMSSM with Bs0 μ+μ- is drastically relaxed if one lowers the SUSY scale and a significantly large parameter space becomes allowed in the phenomenologically interesting regions.