Exclusive diffractive processes including saturation effects at   next-to-leading order

Renaud Boussarie; Andrey V. Grabovsky; Lech Szymanowski; Samuel Wallon

arXiv:1912.12434·hep-ph·January 1, 2020

Exclusive diffractive processes including saturation effects at next-to-leading order

Renaud Boussarie, Andrey V. Grabovsky, Lech Szymanowski, Samuel Wallon

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TL;DR

This paper reviews next-to-leading order QCD shock-wave approach results for exclusive diffractive production of jets and mesons, focusing on dijet electroproduction at HERA, highlighting the role of saturation effects.

Contribution

It introduces a next-to-leading order framework for describing exclusive diffractive processes including saturation effects within the QCD shock-wave approach.

Findings

01

Successful description of diffractive dijet electroproduction at HERA

02

Inclusion of saturation effects improves theoretical predictions

03

Advances understanding of QCD dynamics in diffractive processes

Abstract

In the framework of the QCD shock-wave approach, we review our results on the description of diffractive production of various final states (jets, meson) at next-to-leading order. This is applied to exclusive diffractive dijet electroproduction at HERA.

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Taxonomy

TopicsHigh-Energy Particle Collisions Research · Quantum Chromodynamics and Particle Interactions · Particle physics theoretical and experimental studies