Lepton flavor non-universality in b s + - processes

Abstract

We explore a scenario of New Physics entering the description of B K( ) μ μ decay through couplings to the operators O9,10, satisfying C9 = - C10. From the current data on B(Bs μμ) and B(B K μμ)[15,22] \,GeV2, we obtain constraints on Re C10 and Im C10 which we then assume to be lepton specific, and find RK= B(B K μμ)/ B(B K ee)[1,6]\,GeV2=0.88(8), consistent with recent value measured at LHCb. A specific realization of this scenario is the one with a scalar leptoquark state , in which C10 is related to the mass of and its Yukawa couplings. We then show that this scenario does not make any significant impact on Bs- Bs mixing amplitude nor to B(B K ). Instead, it can modify RK= B(B K μμ)/ B(B K ee)[1,6]\,GeV2, which will soon be experimentally measured and we find it to be RK= 1.11(8), while RK/RK= 1.27(19). A similar ratio of forward-backward asymmetries also becomes lower than in the Standard Model.