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Autores principales: Schaaf, Wilder, Sharpe, Stephen R.
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2512.24508
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author Schaaf, Wilder
Sharpe, Stephen R.
author_facet Schaaf, Wilder
Sharpe, Stephen R.
contents We describe in detail the implementation of the relativistic three-neutron finite-volume quantization condition derived in Ref. [1]. In particular, we show how the complications due to Wigner rotations acting on spins are included, and present concrete formulas for the case when the angular momenta within pairs is restricted to be less than 2. We describe the symmetries of the matrices appearing in the quantization condition, and decompose solutions into irreducible representations of the appropriate doubled finite-volume symmetry groups. We present an implementation of the three-particle K matrix, keeping the two lowest-order terms in the threshold expansion. We provide numerical predictions for the finite-volume spectrum for a setup with nearly physical parameters, including two-particle interactions that are based on experimental results. This exploratory study shows the how lattice QCD calculations of the three-neutron spectrum with sufficient precision can provide detailed information on both two- and three-particle interactions.
format Preprint
id arxiv_https___arxiv_org_abs_2512_24508
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Implementing the three-neutron quantization condition
Schaaf, Wilder
Sharpe, Stephen R.
High Energy Physics - Lattice
Nuclear Theory
We describe in detail the implementation of the relativistic three-neutron finite-volume quantization condition derived in Ref. [1]. In particular, we show how the complications due to Wigner rotations acting on spins are included, and present concrete formulas for the case when the angular momenta within pairs is restricted to be less than 2. We describe the symmetries of the matrices appearing in the quantization condition, and decompose solutions into irreducible representations of the appropriate doubled finite-volume symmetry groups. We present an implementation of the three-particle K matrix, keeping the two lowest-order terms in the threshold expansion. We provide numerical predictions for the finite-volume spectrum for a setup with nearly physical parameters, including two-particle interactions that are based on experimental results. This exploratory study shows the how lattice QCD calculations of the three-neutron spectrum with sufficient precision can provide detailed information on both two- and three-particle interactions.
title Implementing the three-neutron quantization condition
topic High Energy Physics - Lattice
Nuclear Theory
url https://arxiv.org/abs/2512.24508