A space-time approach to multigluon computations in QCD: An application   to effective action terms

A. I. Karanikas; C. N. Ktorides

arXiv:hep-th/0301214·hep-th·November 10, 2009

A space-time approach to multigluon computations in QCD: An application to effective action terms

A. I. Karanikas, C. N. Ktorides

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TL;DR

This paper extends the space-time formulation of QCD's gluonic sector using Polyakov worldline path integrals to multi-gluon loops, deriving master formulas for effective action calculations.

Contribution

It introduces a novel extension of the Polyakov worldline approach to multi-gluon configurations in QCD, providing new computational formulas.

Findings

01

Derived master formulas for multi-gluon effective actions

02

Extended the space-time formulation to complex gluonic loops

03

Enhanced computational tools for QCD effective actions

Abstract

The applicability of the space-time formulation of the gluonic sector of QCD in terms of the Polyakov worldline path integral, via the use of the background field gauge fixing method, is extended to multi-gluon loop configurations. Relevant master formulas are derived for the computation of effective action terms.

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