Probing extended Higgs sector through rare b --> s mu+ mu- transitions

Abstract

We study the constraints on the contribution of new physics in the form of scalar/pseudoscalar operators to the average forward backward asymmetry <AFB> of muons in B --> K mu+ mu- and the longitudinal polarization asymmetry ALP of muons in Bs --> mu+ mu-. We find that the maximum possible value of <AFB> allowed by the present upper bound on B(Bs --> mu+ mu-) is about 1% at 95% C.L. and hence will be very difficult to measure. On the other hand, the present bound on B(Bs --> mu+ mu-) fails to put any constraints on ALP, which can be as high as 100% even if B(Bs --> mu+ mu-) is close to its standard model prediction. The measurement of ALP will be a direct evidence for an extended Higgs sector, and combined with the branching ratio B(Bs --> mu+ mu-) it can even separate the new physics scalar and pseudoscalar contributions.