K → ππ I=3/2 decay amplitude in the continuum limit

Abstract

We present new results for the amplitude A2 for a kaon to decay into two pions with isospin I=2: ReA2 = 1.50(4)stat(14)syst× 10-8 GeV; ImA2 = -6.99(20)stat(84)syst× 10-13 GeV. These results were obtained from two ensembles generated at physical quark masses (in the isospin limit) with inverse lattice spacings a-1=1.728(4) GeV and 2.358(7) GeV. We are therefore able to perform a continuum extrapolation and hence largely to remove the dominant systematic uncertainty from our earlier results, that due to lattice artefacts. The only previous lattice computation of Kππ decays at physical kinematics was performed using an ensemble at a single, rather coarse, value of the lattice spacing (a-1 1.37(1) GeV). We confirm the observation that there is a significant cancellation between the two dominant contributions to ReA2 which we suggest is an important ingredient in understanding the I=1/2 rule, ReA0/ReA2 22.5, where the subscript denotes the total isospin of the two-pion final state. Our result for A2 implies that the electroweak penguin contribution to ε/ε is Re(ε/ε)EWP=-(6.6 1.0)× 10-4.