More Model-Independent Analysis of b->s Processes

Abstract

We study model-independently the implications of non-standard scalar and pseudoscalar interactions for the decays b ->s gamma, b -> s g, b -> s l+l- (l=e,mu) and Bs -> mu+ mu-. We find sizeable renormalization effects from scalar and pseudoscalar four-quark operators in the radiative decays and at O(alphas) in hadronic b decays. Constraints on the Wilson coefficients of an extended operator basis are worked out. Further, the ratios RH = BR(B -> H mu+ mu-)/BR(B -> H e+ e-), for H=K(*), Xs, and their correlations with Bs -> mu+ mu- decay are investigated. We show that the Standard Model prediction for these ratios defined with the same cut on the dilepton mass for electron and muon modes, RH= 1 + O(m2mu/m2b), has a much smaller theoretical uncertainty (<1%) than the one for the individual branching fractions. The present experimental limit RK < 1.2 puts constraints on scalar and pseudoscalar couplings, which are similar to the ones from current data on BR(Bs -> mu+ mu-). We find that new physics corrections to RK* and RXs can reach 13% and 10%, respectively.

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