A new puzzle in non-leptonic B decays

Abstract

We build a set of new observables using closely related non-leptonic penguin-mediated Bd and Bs decays: Bd,s K*0K*0, Bd,s K0K0, Bd,s K0K*0 and Bd,sK0K*0 together with their CP conjugate partners. These optimised observables are designed to reduce hadronic uncertainties, mainly coming from form factors and power-suppressed infrared divergences, and thus maximize their sensitivity to New Physics (NP). The deviations observed with respect to the SM in the ratios of branching ratios of Bd,s K*0K*0 (2.6σ) and Bd,s K0K0 (2.4σ) can be explained by simple NP scenarios involving the Wilson coefficients C4 and C6 (QCD penguin operators) and the coefficient C8g (chromomagnetic operator). The optimised observables for Bd,s K0K*0 and Bd,sK0K*0 show distinctive patterns of deviations with respect to their SM predictions under these NP scenarios. The pattern of deviations of individual branching ratios, though affected by significant hadronic uncertainties, suggests that NP is needed both in b d and b s transitions. We provide the regions for the Wilson coefficients consistent with both optimised observables and individual branching ratios. The NP scenarios considered to explain the deviations of Bd,s K*0K*0 and Bd,s K0K0 can yield deviations up to an order of magnitude among the observables that we introduced for Bd,s K0 K*0 and Bd,sK0 K*0. Probing these new observables experimentally may confirm the consistency of the deviations already observed and provide a highly valuable hint of NP in the non-leptonic sector.