The Optimal Strategy for '/ in the SM: 2019

Abstract

Following the recent analysis done in collaboration with Jason Aebischer and Christoph Bobeth, I summarize the optimal, in our view, strategy for the present evaluation of the ratio '/ in the Standard Model (SM). In particular, I emphasize the importance of the correct matching of the long-distance and short-distance contributions to '/, which presently is only achieved by RBC-UKQCD lattice QCD collaboration and by the analytical Dual QCD approach. An mportant role play also the isospin-breaking and QED effects, which presently are best known from chiral perturbation theory, albeit still with a significant error. Finally, it is essential to include NNLO QCD corrections in order to reduce unphysical renormalization scheme and scale dependences present at the NLO level. Here μc in mc(μc) in the case of QCD penguin (QCDP) contributions and μt in mt(μt) in the case of electroweak penguin (EWP) contributions play the most important roles. Presently the error on '/ is dominated by the uncertainties in the QCDP parameter B6(1/2) and the isospin-breaking parameter eff We present a table illustrating this. To be published online by the Institute of Physics Proceedings.