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Main Authors: Cimino, Lorenzo, Tourbez, Clara, Chevalier, Cyrille, Lacroix, Gwendolyn, Semay, Claude
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2311.05212
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author Cimino, Lorenzo
Tourbez, Clara
Chevalier, Cyrille
Lacroix, Gwendolyn
Semay, Claude
author_facet Cimino, Lorenzo
Tourbez, Clara
Chevalier, Cyrille
Lacroix, Gwendolyn
Semay, Claude
contents Many-body forces, and specially three-body forces, are sometimes a relevant ingredient in various fields, such as atomic, nuclear or hadronic physics. As their precise structure is generally difficult to uncover or to implement, phenomenological effective forces are often used in practice. A form commonly used for a many-body variable is the square-root of the sum of two-body variables. Even in this case, the problem can be very difficult to treat numerically. But this kind of many-body forces can be handled at the same level of difficulty than two-body forces by the envelope theory. The envelope theory is a very efficient technique to compute approximate, but reliable, solutions of many-body systems, specially for identical particles. The quality of this technique is tested here for various three-body forces with non-relativistic systems composed of three identical particles. The energies, the eigenfunctions, and some observables are compared with the corresponding accurate results computed with a numerical variational method.
format Preprint
id arxiv_https___arxiv_org_abs_2311_05212
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Tests of the envelope theory for three-body forces
Cimino, Lorenzo
Tourbez, Clara
Chevalier, Cyrille
Lacroix, Gwendolyn
Semay, Claude
Quantum Physics
Many-body forces, and specially three-body forces, are sometimes a relevant ingredient in various fields, such as atomic, nuclear or hadronic physics. As their precise structure is generally difficult to uncover or to implement, phenomenological effective forces are often used in practice. A form commonly used for a many-body variable is the square-root of the sum of two-body variables. Even in this case, the problem can be very difficult to treat numerically. But this kind of many-body forces can be handled at the same level of difficulty than two-body forces by the envelope theory. The envelope theory is a very efficient technique to compute approximate, but reliable, solutions of many-body systems, specially for identical particles. The quality of this technique is tested here for various three-body forces with non-relativistic systems composed of three identical particles. The energies, the eigenfunctions, and some observables are compared with the corresponding accurate results computed with a numerical variational method.
title Tests of the envelope theory for three-body forces
topic Quantum Physics
url https://arxiv.org/abs/2311.05212