Plan B: New Z models for b→ sl+l- anomalies

Abstract

Measurements of b → s μ+ μ- transitions indicate that there may be a new physics field coupling to di-muon pairs associated with the b to s flavour transition. Including the 2022 LHCb reanalysis of RK and RK, one infers that there may also be associated new physics in b→ e+ e- transitions. Here, we examine the extent of the statistical preference for Z models coupling to di-electron pairs taking into account the relevant constraints, in particular from experiments at LEP-2. We identify an anomaly-free set of models which interpolates between the Z not coupling to electrons at all, to one in which there is an equal Z coupling to muons and electrons (but where in all models in the set, the Z boson can mediate b→ μ+ μ- transitions). A 3B3-Le-2Lμ model provides a close-to-optimal fit to the pertinent measurements along the line of interpolation. We have (re-)calculated predictions for the relevant LEP-2 observables in terms of dimension-6 SMEFT operators and put them into the flavio computer program, so that they are available for global fits.