A model of vector leptoquarks in view of the B-physics anomalies

Abstract

Lepton number as a fourth color is an intriguing theoretical idea which is combined with a possible left-right symmetry within the famous Pati-Salam (PS) model. In the conventional PS model, a spontaneous breaking of the PS gauge group down to the SM one can only take place at very high scales (above the PeV scale) due to the stringent bounds from KLμ e and Kπμ e induced by the resulting vector leptoquarks. In this paper, we show that these constraints can be avoided once additional vector-like fermions are introduced and thus a breaking at the TeV scale is possible. We consider the flavor phenomenology of this model in the context of the intriguing hints for new physics in semileptonic B decays. The necessary violation of lepton flavor universality is induced by mixing SM and vector-like fermions. Concerning R(D) and R(D*) we find that sizable effects are possible while respecting the bounds from other flavor observables but predicting a large enhancement of Bsτ+τ-. Furthermore, also in b s+- transitions the observed deviations from the SM predictions (including R(K) and R(K*)) can be explained with natural values for the free parameters of the model without any fine-tuning, predicting sizable decay rates for b sτμ. Finally, the anomaly in anomalous magnetic moment of the muon can be accounted for by a loop-contribution involving the vector leptoquark and vector-like leptons.