Non-perturbative QCD amplitudes in quenched and eikonal approximations

H. M. Fried (BROWN); T. Grandou (INLN); Y.-M. Sheu (INLN)

arXiv:1207.5017·hep-th·January 20, 2015

Non-perturbative QCD amplitudes in quenched and eikonal approximations

H. M. Fried (BROWN), T. Grandou (INLN), Y.-M. Sheu (INLN)

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TL;DR

This paper explores non-perturbative QCD amplitudes using eikonal and quenched approximations, leveraging the novel concept of Effective Locality to gain physical insights despite the complexity of strong coupling calculations.

Contribution

It introduces the application of Effective Locality in eikonal and quenched approximations to analyze non-perturbative QCD amplitudes.

Findings

01

Effective Locality provides new physical insights into non-perturbative QCD.

02

Eikonal and quenched approximations simplify complex amplitude calculations.

03

The approach advances understanding of strong coupling phenomena in QCD.

Abstract

Even though approximated, strong coupling non-perturbative QCD amplitudes remain very difficult to obtain. In this article, in eikonal and quenched approximations, physical insights are presented that rely on the newly-discovered property of Effective Locality.

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