Discriminating 1D new physics solutions in b s decays

Abstract

The recent measurements of RK+, RKS0, RK*+, Bsμ+μ-, a set of CP-averaged angular observables for the B0 K*0μ+μ- decay, and its isospin partner B+ K*+μ+μ- by the LHCb Collaboration, consistently hint at lepton universality violation in the b s transitions. In this work, we first perform global fits to the b s data and show that five one-dimensional scenarios, i.e, δ C9μ, δ C10μ, δ CLμ, δ C9μ=C10μ, and δ C9μ=-C9μ can best explain the so-called B anamolies. Furthermore, we explore how these scenarios can be distinguished from each other. For this purpose, we first study the combinations of four angular asymmetries Ai~(i=3,4,5,9) and find that they cannot distinguish the five new physics scenarios. We then show that a newly constructed ratio RS can uniquely discriminate the five new physics scenarios in proper intervals of q2 if it can be measured with a percent level precision.