The Exclusive Vision of Rare K and B Decays and of the Quark Mixing in the Standard Model

Abstract

The most common predictions for rare K and B decay branching ratios in the Standard Model are based on the CKM elements |Vcb| and |Vub| resulting from global fits, that are in the ballpark of their inclusive and exclusive determinations, respectively. In the present paper we follow another route. We assume that the future true values of |Vcb| and |Vub| will be both from exclusive determinations and set them equal to the most recent ones from FLAG. An unusual pattern of SM predictions results from this study with some existing tensions being dwarfed and new tensions being born. In particular using the HPQCD B0s,d- B0s,d hadronic matrix elements a 3.1σ tension in Ms independently of γ is found. For 60γ 75 the tension in Md between 4.0σ and 1.1σ is found and in the case of εK between 5.2σ and 2.1σ. Moreover, the room for new physics in K+π+, KLπ0 and B K(K*) decays is significantly increased. We compare the results in this EXCLUSIVE scenario with the HYBRID one in which |Vcb| in the former scenario is replaced by the most recent inclusive |Vcb| and present the dependence of all observables considered by us in both scenarios as functions of γ. We also compare the determination of |Vcb| from Ms, Md, εK and S KS using B0s,d- B0s,d hadronic matrix elements from LQCD with 2+1+1 flavours, 2+1 flavours and their average. Only for the 2+1+1 case values for β and γ exist for which the same value of |Vcb| is found: |Vcb|=42.6(4)× 10-3. This in turn implies a 2.7σ anomaly in Bsμ+μ-.