Malaphoric $Z'$ models for $b \rightarrow s \ell^+ \ell^-$ anomalies

TL;DR

This paper investigates how kinetic mixing in $Z'$ models can address anomalies in $b ightarrow s \, \ell^+ \ell^-$ decays, improving fit quality while remaining consistent with other experimental data.

Contribution

It derives SMEFT coefficients for kinetically mixed $Z'$ models and demonstrates improved fits to flavor anomalies with compatibility to electroweak data.

Findings

Kinetic mixing adds a universal coupling component to $Z'$ models.

Kinetic mixing improves the $B_3-L_2$ model fit by 7.0 in chi-squared.

Models remain compatible with LEP2 and electroweak precision measurements.

Abstract

We study some phenomenological effects of kinetic mixing between the hypercharge field and a new $U(1)$ gauge field in specific $Z^\prime$ models that ameliorate the tensions between measurements and Standard Model predictions in $b \rightarrow s\ell^+ \ell^-$ decays. To this end, we rederive the dimension-6 SMEFT coefficients resulting from integrating out the kinetically-mixed (`malaphoric') $Z^\prime$ field. The kinetic mixing provides a family-universal component to the couplings of the $Z^\prime$ field, which can improve fits to lepton flavour universality observables. We show how kinetic mixing improves the best fit of the $B_3-L_2$ model to $b\rightarrow s$ data by 7.0 units of $\chi^2$ while remaining compatible with other relevant data sets such as electroweak precision observables and measurements of $e^+ e^- \rightarrow \ell^+ \ell^-$ at LEP2.