Explaining the b → sℓ+ℓ− anomalies in Z′ scenarios with top-FCNC couplings

Abstract

Motivated by the recent anomalies in b→sℓ+ℓ− transitions, we explore a minimal Z′ scenario, in which the Z′ boson has a flavour-changing coupling to charm and top quarks and a flavour-conserving coupling to muons. It is found that such a Z′ boson can explain the current b→sℓ+ℓ− anomalies, while satisfying other flavour and collider constraints simultaneously. The Z′ boson can be as light as few hundreds GeV. In this case, the t→cμ+μ− decay and the tZ′ associated production at the LHC could provide sensitive probes of such a Z′ boson. As a special feature, the Z′ contributions to all rare B- and K-meson processes are controlled by one parameter. This results in interesting correlations among these processes, which could provide further insights into this scenario. In addition, an extended scenario, in which the Z′ boson interacts with the SU(2)L fermion doublets with analogous couplings as in the minimal scenario, is also investigated.