Nucleon Masses and Magnetic Moments in a Finite Volume

Silas R. Beane

arXiv:hep-lat/0403015·hep-lat·November 17, 2014

Nucleon Masses and Magnetic Moments in a Finite Volume

Silas R. Beane

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TL;DR

This paper calculates how finite spatial volume affects nucleon masses and magnetic moments in QCD and partially-quenched QCD, providing insights into finite-size effects in lattice simulations.

Contribution

It introduces a method to compute finite-size corrections to nucleon properties in lattice QCD, applicable to both full and partially-quenched theories.

Findings

01

Finite-volume corrections are quantified for nucleon masses.

02

Finite-volume effects on magnetic moments are characterized.

03

Results aid in interpreting lattice QCD simulations with limited spatial extent.

Abstract

We compute finite-size corrections to nucleon masses and magnetic moments in a periodic, spatial box of size L, both in QCD and in partially-quenched QCD.

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Taxonomy

TopicsSuperconducting Materials and Applications · Nuclear physics research studies