Nuclear models on a lattice

F. De Soto (LPSC); J. Carbonell (LPSC); C. Roiesnel (CPHT); Ph.; Boucaud (LPT); J.P. Leroy (LPT); O. Pene (LPT)

arXiv:hep-lat/0511009·hep-lat·March 19, 2010

Nuclear models on a lattice

F. De Soto (LPSC), J. Carbonell (LPSC), C. Roiesnel (CPHT), Ph., Boucaud (LPT), J.P. Leroy (LPT), O. Pene (LPT)

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TL;DR

This paper introduces a quantum field lattice approach to nuclear models, analyzing renormalization effects on fermion mass and coupling constants within scalar and pseudoscalar interactions.

Contribution

First application of lattice quantum field methods to nuclear models, focusing on renormalization effects in fermion interactions.

Findings

01

Renormalization effects on fermion mass and coupling constants are characterized.

02

Lattice techniques are successfully applied to scalar and pseudoscalar nuclear interactions.

03

Initial results demonstrate feasibility of lattice quantum field approaches in nuclear physics.

Abstract

We present the first results of a quantum field approach to nuclear models obtained by lattice techniques. Renormalization effects for fermion mass and coupling constant in case of scalar and pseudoscalar interaction lagrangian densities are discussed.

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