Ghost-gluon running coupling, power corrections and the determination of   $\Lambda_{\bar {\rm MS}}$

Ph. Boucaud; F. De Soto; J.P. Leroy; A. Le Yaouanc; J. Micheli; O.; P\`ene; J. Rodr\'iguez-Quintero

arXiv:0811.2059·hep-ph·March 19, 2010

Ghost-gluon running coupling, power corrections and the determination of $\Lambda_{\bar {\rm MS}}$

Ph. Boucaud, F. De Soto, J.P. Leroy, A. Le Yaouanc, J. Micheli, O., P\`ene, J. Rodr\'iguez-Quintero

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TL;DR

This paper develops a non-perturbative formula including power corrections for the ghost-gluon coupling in QCD, enabling accurate determination of the QCD scale parameter Lambda_MSbar from lattice data.

Contribution

It introduces a novel 'plateau' method to extract Lambda_MSbar from lattice calculations, incorporating OPE power corrections for improved accuracy.

Findings

01

The formula accurately describes the running coupling with power corrections.

02

The 'plateau' procedure provides consistent Lambda_MSbar estimates.

03

Different lattice spacings yield compatible Lambda_MSbar values.

Abstract

We compute a formula including OPE power corrections to describe the running of a QCD coupling non-perturbatively defined through the ghost and gluon dressing functions. This turns out to be rather accurate. We propose the ``{\it plateau}''-procedure to compute $Λ_{\overset{ˉ}{MS}}$ from the lattice computation of the running coupling constant. We show a good agreement between the different methods which have been used to estimate $Λ_{\overset{ˉ}{MS}}^{N_{f} = 0}$ . We argue that $Λ_{\overset{ˉ}{MS}}$ or the strong coupling constant computed with different lattice spacings may be used to estimate the lattice spacing ratio.

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