The Coulomb Branch of Yang-Mills Theory from the Schroedinger   Representation

Jiannis Pachos

arXiv:hep-th/9801163·hep-th·October 31, 2009

The Coulomb Branch of Yang-Mills Theory from the Schroedinger Representation

Jiannis Pachos

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TL;DR

This paper computes the Coulomb potential between static colored sources in Yang-Mills theory using the electric Schrödinger representation, providing insights into the non-perturbative structure of the theory.

Contribution

It introduces a novel calculation of the Coulomb branch in Yang-Mills theory through the electric Schrödinger representation, offering a new perspective on the potential between static sources.

Findings

01

Calculated Coulomb potential in Yang-Mills theory

02

Demonstrated the utility of the electric Schrödinger representation

03

Provided results relevant for understanding confinement mechanisms

Abstract

The Coulomb branch of the potential between two static colored sources is calculated for the Yang-Mills theory using the electric Schroedinger representation.

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