Bootstrapping Two-Nucleon Effective Field Theories
Abstract
Chiral EFT yields singular potentials that require regularization and renormalization when implemented in a dynamical equation such as the Lippmann--Schwinger equation. We employ two different approaches, renormalization with contact terms -- as is most commonly done in chiral EFT -- and the exact N/D method with multiple subtractions. We start with a toy model in which we can control the finite-range expansion of the potential, treating the full potential as the `exact' theory. To assess the statistical consistency of the approaches with the full theory, we use the bootstrap technique. We apply the same framework to study the consistency of chiral EFT at LO and NLO with the Granada phase-shift analysis in the two-nucleon partial wave. Our results show that the NLO potential significantly extends the energy range over which the theory remains valid.
Cite
@article{arxiv.2605.22134,
title = {Bootstrapping Two-Nucleon Effective Field Theories},
author = {Q. N. Micha-Mba and M. S. Sánchez and P. G. Ortega and J. A. Oller and D. R. Entem},
journal= {arXiv preprint arXiv:2605.22134},
year = {2026}
}
Comments
23 pages, 15 figures