String Tension in QED from Coulomb Gauge Correlators

T.H. Hansson (Stockholm); I. Zahed (Stony Brook)

arXiv:hep-th/9303179·hep-th·May 23, 2007

String Tension in QED from Coulomb Gauge Correlators

T.H. Hansson (Stockholm), I. Zahed (Stony Brook)

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TL;DR

This paper introduces a Coulomb gauge approach to test confinement and measure string tension in quantum electrodynamics models, providing a new method for analyzing gauge theories.

Contribution

It presents a novel Coulomb gauge technique for evaluating confinement and string tension in the Schwinger model and 3D compact QED, advancing computational methods in gauge theories.

Findings

01

Demonstrates the effectiveness of Coulomb gauge correlators in measuring string tension.

02

Provides new insights into confinement mechanisms in lower-dimensional QED.

03

Offers a practical computational approach for gauge theory analysis.

Abstract

We discuss the new Coulomb gauge method for testing confinement and measuring the string tension in the context of the Schwinger model and compact QED in 3 dimensions.

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Taxonomy

TopicsParticle physics theoretical and experimental studies · Black Holes and Theoretical Physics · Quantum Chromodynamics and Particle Interactions