Standard Model predictions for rare K and B decays without new physics infection

The Standard Model (SM) does not contain by definition any new physics (NP) contributions to any observable but contains four CKM parameters which are not predicted by this model. We point out that if these four parameters are determined in a global fit which includes processes that are infected by NP and therefore by sources outside the SM, the resulting so-called SM contributions to rare decay branching ratios cannot be considered as genuine SM contributions to the latter. On the other hand genuine SM predictions, that are free from the CKM dependence, can be obtained for suitable ratios of the K and B rare decay branching ratios to [Formula: see text] , [Formula: see text] and [Formula: see text] , all calculated within the SM. These three observables contain by now only small hadronic uncertainties and are already well measured so that rather precise SM predictions for the ratios in question can be obtained. In this context the rapid test of NP infection in the [Formula: see text] sector is provided by a [Formula: see text] plot that involves [Formula: see text] , [Formula: see text] , [Formula: see text] , and the mixing induced CP-asymmetry [Formula: see text] . As with the present hadronic matrix elements this test turns out to be negative, assuming negligible NP infection in the [Formula: see text] sector and setting the values of these four observables to the experimental ones, allows to obtain SM predictions for all K and B rare decay branching ratios that are most accurate to date and as a byproduct to obtain the full CKM matrix on the basis of [Formula: see text] transitions alone. Using this strategy we obtain SM predictions for 26 branching ratios for rare semileptonic and leptonic K and B decays with the [Formula: see text] pair or the [Formula: see text] pair in the final state. Most interesting turn out to be the anomalies in the low [Formula: see text] bin in [Formula: see text] ([Formula: see text] ) and [Formula: see text] ([Formula: see text] ).