Stringent Tests of Constrained Minimal Flavour Violation through Delta F=2 Transitions

Abstract

New Physics contributions to Delta F=2 transitions in models with constrained Minimal Flavour Violation (CMFV), are parametrized by a single variable S(v), the value of the real box diagram function. With already precise experimental values of epsilonK, Delta Md, Delta Ms, CP-asymmetry Spsi KS and of hatBK entering the evaluation of epsilonK, the future of CMFV in the Delta F=2 sector depends crucially on the values of |Vcb|, |Vub|, gamma, FBs sqrthat BBs and FBd sqrthat BBd. The ratio xi of the latter two parameters, rather precisely determined from lattice calculations, allows then together with Delta Ms/Delta Md and Spsi KS to determine the range of gamma in the unitarity triangle independently of the value of S(v). Imposing in addition the constraints from epsilonK and Delta Md allows to determine the favorite CMFV values of |Vcb|, |Vub|, FBs sqrthat BBs and FBd sqrthat BBd as functions of S(v) and gamma. The |Vcb|4 dependence of epsilonK allows to determine |Vcb| for a given S(v) and gamma with a higher precision than it is presently possible using tree-level decays. The same applies to |Vub|, |Vtd| and |Vts| that are automatically determined as functions of S(v) and gamma. Typically FBssqrthat BBs and FBd sqrthat BBd have to be significantly lower than their present lattice values, while |Vcb| has to be significantly higher than its tree-level determination. The region in the space of these three parameters allowed by CMFV indicates visible problems in this class of models and hints for the presence of new sources of flavour violation and/or new local operators in Delta F=2 data that are strongly suppressed in these models. As a byproduct we propose to reduce the present uncertainty in the charm contribution toepsilonK by using the experimental value of Delta MK.