Collective perspective on advances in Dyson-Schwinger Equation QCD

Adnan Bashir; Lei Chang; Ian C. Cloet; Bruno El-Bennich; Yu-xin Liu,; Craig D. Roberts; Peter C. Tandy

arXiv:1201.3366·nucl-th·June 3, 2015

Collective perspective on advances in Dyson-Schwinger Equation QCD

Adnan Bashir, Lei Chang, Ian C. Cloet, Bruno El-Bennich, Yu-xin Liu,, Craig D. Roberts, Peter C. Tandy

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TL;DR

This paper reviews recent progress in understanding hadrons and quark interactions in QCD through Dyson-Schwinger equations, covering confinement, hadron properties, form factors, and quark-gluon plasma insights.

Contribution

It provides a comprehensive survey of contemporary Dyson-Schwinger equation studies in QCD, highlighting advances in hadron physics and strong interaction phenomena.

Findings

01

Insights into confinement mechanisms

02

Advances in hadron spectrum calculations

03

Improved understanding of quark-gluon plasma properties

Abstract

We survey contemporary studies of hadrons and strongly interacting quarks using QCD's Dyson-Schwinger equations, addressing: aspects of confinement and dynamical chiral symmetry breaking; the hadron spectrum; hadron elastic and transition form factors, from small- to large-Q^2; parton distribution functions; the physics of hadrons containing one or more heavy quarks; and properties of the quark gluon plasma.

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