Higher order finite volume quantization conditions for two spinless particles
Abstract
Lattice QCD calculations of scattering phaseshifts and resonance parameters in the two-body sector are becoming precision studies. Early calculations employed L\"uscher's formula for extracting these quantities at lowest order. As the calculations become more ambitious, higher-order relations are required. In this study we present a way to validate the higher-order quantization conditions. This is an important step given the involved derivations of these formulae. We derive and validate quantization conditions up to partial waves in both cubic and elongated geometries, and for states zero and non-zero total momentum. For all 45 quantization conditions we considered (22 in cubic box, 23 in elongated box) we find perfect agreement.
Cite
@article{arxiv.2107.04430,
title = {Higher order finite volume quantization conditions for two spinless particles},
author = {Frank X. Lee and Andrei Alexandru and Ruairí Brett},
journal= {arXiv preprint arXiv:2107.04430},
year = {2022}
}
Comments
55 pages, 9 figures, 45 tables, 1 supplement. This update matches the published version in PRD