Real-time approach to quark confined systems at finite temperatures

A.V. Nefediev (ITEP; Moscow); J.E.F.T. Ribeiro (IST; Lisbon)

arXiv:0906.1288·hep-ph·May 13, 2015

Real-time approach to quark confined systems at finite temperatures

A.V. Nefediev (ITEP, Moscow), J.E.F.T. Ribeiro (IST, Lisbon)

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TL;DR

This paper introduces a real-time formalism for the Nambu-Jona-Lasinio model at finite temperatures, enabling the study of chiral symmetry and bound states in quark confined systems.

Contribution

It presents a novel real-time approach to analyze finite-temperature properties of quark confined systems within the Nambu-Jona-Lasinio model.

Findings

01

Analysis of chiral symmetry breaking and restoration at T>0

02

Study of bound-state spectrum properties at finite temperatures

03

Framework applicable to real-time finite-temperature QCD models

Abstract

Generalised Nambu-Jona-Lasinio model for QCD is considered at finite temperatures in the framework of a real-time formalism. The proposed approach allows one to study various properties of the model at T>0, such as chiral symmetry breaking and restoration, properties of the bound-state spectrum, and so on.

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