Non-universal Z' models with protected flavour-changing interactions

TL;DR

This paper introduces a new class of Z' models with flavor-changing interactions linked to quark mixing, predicting observable effects in B decays and Z' decays that can be tested at the LHC.

Contribution

The paper proposes a novel class of Z' models with predictive flavor-changing and lepton-flavor non-universal couplings based on an underlying gauge symmetry.

Findings

Models address deviations in B decay observables.

Predict lepton-universality violations in Z' decays.

Correlations among Wilson coefficients C9,10(l) are testable.

Abstract

We define a new class of Z' models with neutral flavour-changing interactions at tree level in the down-quark sector. They are related in an exact way to elements of the quark mixing matrix due to an underlying flavoured U(1)' gauge symmetry, rendering these models particularly predictive. The same symmetry implies lepton-flavour non-universal couplings, fully determined by the gauge structure of the model. Our models allow to address several presently observed deviations from the SM and specific correlations among the new physics contributions to the Wilson coefficients C9,10(l) can be tested in b->sll transitions. We furthermore predict lepton-universality violations in Z' decays, testable at the LHC.