Neutral B-anomalies from an on-shell scalar exchange
Abstract
The neutral B-anomalies are analysed in terms of the tree-level exchange of a (pseudo)scalar gauge singlet a. Solutions to both RK(*) central bin anomalies are found within 1σ for ma2 ∈ [1.1,\,6]\,GeV2, while the low q2-bin anomaly can also be accounted for with masses close to the bin threshold. The impact of these solutions on other b s e+ e- observables is discussed in detail. Due to the on-shell enhancement, sizable effects are expected in null tests of the SM, such as the flat term, FH, of the B K e+ e- angular distribution. At the same time, the observable sensitive to the K polarisation, FL\, (B K* e+ e-), and the lepton forward-backward asymmetry, AFB\, (B K* e+ e-), can be suppressed with respect to their SM values. Corrections from the new physics to B(Bs e+ e-) are, on the other hand, negligible. Along with the previous observables, improved measurements of the cross section σ (e+ e- a (e+ e-) γ) could potentially probe the relevant parameter space of the model. A comparison between our results and those stemming from an axion-like particle exchange is also discussed, showing that the exchange of a general scalar singlet offers a noticeably wider parameter space.
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