LFU and CP violation with $S_3$

TL;DR

This paper explores how a CP-violating scalar leptoquark $S_3$ can explain anomalies in lepton universality ratios and predicts observable CP asymmetries in B meson decays, with constraints from various flavor physics measurements.

Contribution

It introduces a CP-violating $S_3$ leptoquark model and derives constraints from flavor observables, showing large CP phases are viable for certain mass ranges.

Findings

Large CP phase possible for $S_3$ mass below a few TeV.

Constraints from $b o s \mu ext{-} ext{pair}$ processes and $B_s$ mixing.

Predictions for CP asymmetries in $B o K \mu ext{-} ext{pair}$ decays.

Abstract

We introduce the CP violating scalar leptoquark $S_3$ to explain the measured values of the lepton universality ratios $R_{K^{(*)}}$. We derive constraints on the CP-even and CP-odd components of the leptoquark Yukawa couplings stemming from effects in $b \to s \mu \mu$ and $B_s$ mixing. For the $b \to s \mu \mu$ processes we impose $R_{K^{(*)}}$, $\mathcal{B}(B_s \to \mu^+ \mu^-)$, as well as CP-sensitive angular asymmetries $A_{7,8,9}$, whereas in the $B_s$ mixing sector $\Delta M_s$ and $S_{\psi\phi}$ are considered. Combining the constraints within the $S_3$ model reveals that a large CP phase with a definite sign is perfectly viable for a leptoquark of mass below a few TeV. For larger mass of the $S_3$ leptoquark the CP phase is suppressed due to the observables pertaining to the $B_s$ system. We provide predictions of direct and mixing-induced CP asymmetries in $B \to K \mu \mu$ that could reveal the presence of the novel CP phase.