New Physics in b s μ+ μ- after the Measurement of RK*

Abstract

The recent measurement of RK* is yet another hint of new physics (NP), and supports the idea that it is present in b sμ+μ- decays. We perform a combined model-independent and model-dependent analysis in order to deduce properties of this NP. Like others, we find that the NP must obey one of two scenarios: (I) C9μμ( NP) < 0 or (II) C9μμ( NP) = - C10μμ( NP) < 0. A third scenario, (III) C9μμ( NP) = - C9 μμ( NP), is rejected largely because it predicts RK = 1, in disagreement with experiment. The simplest NP models involve the tree-level exchange of a leptoquark (LQ) or a Z' boson. We show that scenario (II) can arise in LQ or Z' models, but scenario (I) is only possible with a Z'. Fits to Z' models must take into account the additional constraints from B0s- B0s mixing and neutrino trident production. Although the LQs must be heavy, O(TeV), we find that the Z' can be light, e.g., MZ' = 10 GeV or 200 MeV.