The K(ππ)I=2 Decay Amplitude from Lattice QCD

Abstract

We report on the first realistic ab initio calculation of a hadronic weak decay, that of the amplitude A2 for a kaon to decay into two π-mesons with isospin 2. We find ReA2=(1.436 0.063stat 0.258syst)\,10-8\,GeV in good agreement with the experimental result and for the hitherto unknown imaginary part we find Im\,A2=-(6.83 0.51stat 1.30syst)\,10-13\, GeV. Moreover combining our result for Im\,A2 with experimental values of Re\,A2, Re\,A0 and ε/ε, we obtain the following value for the unknown ratio Im\,A0/Re\,A0 within the Standard Model: Im\,A0/Re\,A0=-1.63(19)stat(20)syst×10-4. One consequence of these results is that the contribution from Im\,A2 to the direct CP violation parameter ε (the so-called Electroweak Penguin, EWP, contribution) is Re(ε/ε)EWP = -(6.52 0.49stat 1.24syst) × 10-4. We explain why this calculation of A2 represents a major milestone for lattice QCD and discuss the exciting prospects for a full quantitative understanding of CP-violation in kaon decays.