The Forward-Backward Asymmetry in B D*: One more hint for Scalar Leptoquarks?
Abstract
Experimental data have provided intriguing hints for the violation of lepton flavour universality (LFU), including B D(*)τ/B D(*), the anomalous magnetic moment of the muon and b\!\! s+- with a significance of \!>3\,σ, >\!4\,σ and >\!5\,σ, respectively. Furthermore, in a recent re-analysis of 2018 Belle data, it was found that the forward-backward asymmetry ( A FB) of B D*μ vs B D*e disagrees with the SM prediction by ≈\!\!4\,σ, providing an additional sign of LFU violation. We show that a tensor operator is necessary to significantly improve the agreement with data in A FB while respecting the bounds from other b c observables. Importantly, this tensor operator can only be induced (at tree-level within renormalizable models) by a scalar leptoquark. Furthermore, among the two possible representations, the SU(2)L-singlet S1 and the doublet S2, which can interestingly both also account for the anomalous magnetic moment of the muon, only S1 can provide a good fit. Even though the constraints from (differences of) other angular observables prefer a smaller value of A FB than the current central one, this scenario is significantly preferred (nearly 4 σ) over the SM hypothesis, and is compatible with constraints such as B K* and electroweak precision bounds. Therefore, if the A FB anomaly is confirmed, it would provide circumstantial evidence for scalar leptoquarks and pave the way for a natural connection with all other anomalies pointing towards LFU violation.
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