Left-hand cut problem in lattice QCD and an EFT-based solution
Abstract
Lattice QCD has become an essential tool for studying the hadron-hadron interaction from the first principles. However, when extracting infinite-volume scattering parameters from finite-volume energy levels, the traditional L\"uscher formula encounters limitations due to the left-hand cut induced by long-range interactions such as the one-pion exchange. In this work, we propose an alternative approach based on chiral effective field theory combined with a Hamiltonian method in the plane wave basis. By solving a Schr\"odinger-like equation in the finite volume, our method connects the finite-volume energy spectrum with infinite-volume observables, while systematically incorporating the long-range physics and solving the left-hand cut problem. The use of the plane wave basis mitigates issues related to partial wave mixing. Our numerical results for scattering at 280 MeV demonstrate that this approach overcomes the limitations of the L\"uscher method and points towards a resonance interpretation of the state, as opposed to the virtual state predicted by traditional analyses.
Cite
@article{arxiv.2503.23944,
title = {Left-hand cut problem in lattice QCD and an EFT-based solution},
author = {Lu Meng and Vadim Baru and Evgeny Epelbaum and Arseniy A. Filin and Ashot M. Gasparyan},
journal= {arXiv preprint arXiv:2503.23944},
year = {2025}
}
Comments
Proceedings of the 11th International Workshop on Chiral Dynamics (CD2024)