A B-anomaly motivated Z boson at the energy and precision frontiers

Abstract

TeV-scale Z bosons with family-dependent couplings can explain some anomalies inferred from B-meson measurements of processes involving the b → s +- transition. A Z originating from kinetically-mixed spontaneously broken U(1)B3-L2 gauge symmetry has been shown to greatly ameliorate global fits~Allanach:2024ozu in a `flavour-preferred' region of parameter space. We provide an exploration of this region at the high luminosity (HL-)LHC with particular attention to which signals could be verified across different discovery modes. Even if the HL-LHC does not discover the Z boson in a resonant di-lepton channel, a FCC-ee Z-pole run would detect oblique corrections to the electroweak precision observables (EWPOs). Changes due to Z-induced non-oblique corrections are unlikely to be detected, to within experimental precision. In any case, the extended discovery potential offered by a 100 TeV pp-collider would afford sensitivity to the entire flavour-preferred region and enable a fine-grained and forensic analysis of the~model.

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