Direct CP violation and the I=1/2 rule in Kππ decay from the Standard Model

Abstract

We present a lattice QCD calculation of the I=1/2, Kππ decay amplitude A0 and ', the measure of direct CP-violation in Kππ decay, improving our 2015 calculation of these quantities. Both calculations were performed with physical kinematics on a 323× 64 lattice with an inverse lattice spacing of a-1=1.3784(68) GeV. However, the current calculation includes nearly four times the statistics and numerous technical improvements allowing us to more reliably isolate the ππ ground-state and more accurately relate the lattice operators to those defined in the Standard Model. We find Re(A0)=2.99(0.32)(0.59)× 10-7 GeV and Im(A0)=-6.98(0.62)(1.44)× 10-11 GeV, where the errors are statistical and systematic, respectively. The former agrees well with the experimental result Re(A0)=3.3201(18)× 10-7 GeV. These results for A0 can be combined with our earlier lattice calculation of A2 to obtain Re('/)=21.7(2.6)(6.2)(5.0) × 10-4, where the third error represents omitted isospin breaking effects, and Re(A0)/Re(A2) = 19.9(2.3)(4.4). The first agrees well with the experimental result of Re('/)=16.6(2.3)× 10-4. A comparison of the second with the observed ratio Re(A0)/Re(A2) = 22.45(6), demonstrates the Standard Model origin of this " I = 1/2 rule" enhancement.