Infrared QCD and the Renormalisation Group

Daniel F. Litim; Jan M. Pawlowski; Sergei Nedelko; Lorenz v. Smekal

arXiv:hep-th/0410241·hep-th·August 23, 2017

Infrared QCD and the Renormalisation Group

Daniel F. Litim, Jan M. Pawlowski, Sergei Nedelko, Lorenz v. Smekal

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TL;DR

This paper investigates the infrared behavior of Quantum Chromodynamics using Wilsonian renormalisation group techniques, providing insights into Green functions and confinement mechanisms in Landau gauge.

Contribution

It applies the Wilsonian renormalisation group to analyze the infrared structure of QCD, specifically computing propagator behaviors in Landau gauge and supporting the Kugo-Ojima confinement scenario.

Findings

01

Infrared propagators computed in Landau gauge

02

Results support the Kugo-Ojima confinement scenario

03

Methodology elucidates Green function structures in IR QCD

Abstract

We study the infrared regime of QCD by means of a Wilsonian renormalisation group. We explain how, in general, the infrared structure of Green functions is deduced in this approach. Our reasoning is put to work in Landau gauge QCD, where the leading infrared terms of the propagators are computed. The results support the Kugo-Ojima scenario of confinement. Possible extensions are indicated.

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