Calculation of K ππ decay amplitudes with improved Wilson fermion in 2+1 flavor lattice QCD

Abstract

We present results for the Kππ decay amplitudes for both the I=1/2 and 3/2 channels. This calculation is carried out on 480 gauge configurations in Nf=2+1 QCD generated over 12,000 trajectories with the Iwasaki gauge action and non-perturbatively O(a)-improved Wilson fermion action at a=0.091\, fm, mπ=280\, MeV and mK=580\, MeV on a 323× 64 (La=2.9\, fm) lattice. For the quark loops in the Penguin and disconnected contributions in the I=0 channel, the combined hopping parameter expansion and truncated solver techniques work very well for variance reduction. We obtain, for the first time with a Wilson-type fermion action, that ReA0 = 60(36) ×10 -8\, GeV and ImA0 =-67(56) ×10-12\, GeV for a matching scale q* =1/a. The dependence on the matching scale is weak.