I = 3/2 and I = 1/2 channels of Kππ decay at the physical point with periodic boundary conditions

Abstract

We present a lattice calculation of the Kππ matrix elements and amplitudes with both the I = 3/2 and 1/2 channels and ', the measure of direct CP violation. We use periodic boundary conditions (PBC), where the correct kinematics of Kππ can be achieved via an excited two-pion final state. To overcome the difficulty associated with the extraction of excited states, our previous work Bai:2015nea,RBC:2020kdj successfully employed G-parity boundary conditions, where pions are forced to have non-zero momentum enabling the I=0 two-pion ground state to express the on-shell kinematics of the Kππ decay. Here instead we overcome the problem using the variational method which allows us to resolve the two-pion spectrum and matrix elements up to the relevant energy where the decay amplitude is on-shell. In this paper we report an exploratory calculation of Kππ decay amplitudes and ' using PBC on a coarser lattice size of 243×64 with inverse lattice spacing a-1=1.023 GeV and the physical pion and kaon masses. The results are promising enough to motivate us to continue our measurements on finer lattice ensembles in order to improve the precision in the near future.