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Main Authors: Li, Zihan, Nguyen, Son T.
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2601.04244
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author Li, Zihan
Nguyen, Son T.
author_facet Li, Zihan
Nguyen, Son T.
contents Few-body physics plays a central role in many branches of physics, such as nuclear physics and atomic physics. Advances in controlling ultra-cold quantum gases provide an ideal testbed for few-body physics theory. In this work, we study few-body systems consisting of two distinct species of non-relativistic fermions in one spatial dimension using both field theory and lattice methods. Particles of the same type do not interact with each other, but particles of different types can interact via an attractive contact interaction. We first study the dependence of the coupling of a contact interaction on the lattice spacing. Using this input, we extract two-, three-, and four-body ground state energies in the infinite length limit and benchmark them against the calculations from the continuum field theory. This work enables us to systematically study the effect of discretization and finite-length artifacts on few-body observables.
format Preprint
id arxiv_https___arxiv_org_abs_2601_04244
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Lattice Regularization of Non-relativistic Interacting Fermions in One Dimension
Li, Zihan
Nguyen, Son T.
Quantum Gases
Few-body physics plays a central role in many branches of physics, such as nuclear physics and atomic physics. Advances in controlling ultra-cold quantum gases provide an ideal testbed for few-body physics theory. In this work, we study few-body systems consisting of two distinct species of non-relativistic fermions in one spatial dimension using both field theory and lattice methods. Particles of the same type do not interact with each other, but particles of different types can interact via an attractive contact interaction. We first study the dependence of the coupling of a contact interaction on the lattice spacing. Using this input, we extract two-, three-, and four-body ground state energies in the infinite length limit and benchmark them against the calculations from the continuum field theory. This work enables us to systematically study the effect of discretization and finite-length artifacts on few-body observables.
title Lattice Regularization of Non-relativistic Interacting Fermions in One Dimension
topic Quantum Gases
url https://arxiv.org/abs/2601.04244