The πγ ππ transition and the radiative decay width from lattice QCD

Abstract

We report a lattice QCD determination of the πγ ππ transition amplitude for the P-wave, I=1 two-pion final state, as a function of the photon virtuality and ππ invariant mass. The calculation was performed with 2+1 flavors of clover fermions at a pion mass of approximately 320 MeV, on a 323 × 96 lattice with L≈ 3.6 fm. We construct the necessary correlation functions using a combination of smeared forward, sequential and stochastic propagators, and determine the finite-volume matrix elements for all ππ momenta up to |P|= 3 2πL and all associated irreducible representations. In the mapping of the finite-volume to infinite-volume matrix elements using the Lellouch-L\"uscher factor, we consider two different parametrizations of the ππ scattering phase shift. We fit the q2 and s dependence of the infinite-volume transition amplitude in a model-independent way using series expansions, and compare multiple different truncations of this series. Through analytic continuation to the resonance pole, we also determine the πγ resonant transition form factor and the meson photocoupling, and obtain |Gπγ| = 0.0802(32)(20).