K(ππ)I=2 decays and twisted boundary conditions

Abstract

We propose a new method to evaluate the Lellouch-L\"uscher factor which relates the I=3/2 Kππ matrix elements computed on a finite lattice to the physical (infinite-volume) decay amplitudes. The method relies on the use of partially twisted boundary conditions, which allow the s-wave ππ phase shift to be computed as an almost continuous function of the centre-of-mass relative momentum and hence for its derivative to be evaluated. We successfully demonstrate the feasibility of the technique in an exploratory computation.