K to pi pi Amplitudes at Unphysical Kinematics Using Domain Wall Fermions

Abstract

The use of chiral perturbation theory in extracting physical K to pi pi matrix elements from matrix elements calculated at unphysical kinematics is outlined. In particular, the possibility of utilizing pions with non-zero momentum in the final state, and of using partial quenching is discussed. Preliminary (not physically normalized) Delta I=3/2 (27,1) K to pi pi matrix elements are calculated on the RBC/UKQCD 243 × 64, Ls=16 lattices, using 2+1 dynamical flavors and domain wall fermions, with an inverse lattice spacing of a-1=1.729(28) GeV. Effective mass plots are presented for a light sea quark mass of mlsea=0.005, and various valence quark masses. The plateaux are fit and Eππ-mK is extracted.