Study of Confinement Using the Schroedinger Functional

Paolo Cea; Leonardo Cosmai

arXiv:hep-lat/0203022·hep-lat·August 23, 2017

Study of Confinement Using the Schroedinger Functional

Paolo Cea, Leonardo Cosmai

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TL;DR

This paper investigates vacuum dynamics and confinement in pure lattice gauge theories using a gauge-invariant effective action based on the lattice Schrödinger functional, providing numerical insights into confinement mechanisms.

Contribution

It introduces a gauge-invariant effective action approach utilizing the lattice Schrödinger functional to study confinement, offering new numerical results.

Findings

01

Numerical results support the effectiveness of the Schrödinger functional method.

02

Insights into vacuum structure and confinement mechanisms in lattice gauge theories.

03

Validation of gauge-invariant approaches for studying non-perturbative phenomena.

Abstract

We use a gauge-invariant effective action defined in terms of the lattice Schroedinger functional to investigate vacuum dynamics and confinement in pure lattice gauge theories. After a brief introduction to the method, we report some numerical results.

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