Hamiltonian Flow of Yang-Mills Theory in Coulomb Gauge

Hugo Reinhardt; Markus Leder; Jan M. Pawlowski; Axel Weber

arXiv:1008.1530·hep-lat·January 27, 2011

Hamiltonian Flow of Yang-Mills Theory in Coulomb Gauge

Hugo Reinhardt, Markus Leder, Jan M. Pawlowski, Axel Weber

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TL;DR

This paper introduces a novel functional renormalization group equation for Hamiltonian Yang-Mills theory in Coulomb gauge, solving for static gluon and ghost propagators under ghost dominance and comparing results with variational methods.

Contribution

It presents a new functional renormalization group framework for Hamiltonian Yang-Mills theory in Coulomb gauge, advancing the understanding of non-perturbative gauge dynamics.

Findings

01

Derived the functional renormalization group equation for Coulomb gauge

02

Solved for static gluon and ghost propagators under ghost dominance

03

Compared results with variational approach outcomes

Abstract

A new functional renormalization group equation for Hamiltonian Yang-Mills theory in Coulomb gauge is presented and solved for the static gluon and ghost propagators under the assumption of ghost dominance. The results are compared to those obtained in the variational approach.

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Taxonomy

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