The perturbative Pomeron with NLO accuracy: Jet-Gap-Jet Observables

M. Hentschinski

arXiv:1507.04059·hep-ph·July 16, 2015

The perturbative Pomeron with NLO accuracy: Jet-Gap-Jet Observables

M. Hentschinski

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TL;DR

This paper presents a next-to-leading order (NLO) calculation of the forward jet vertex in the BFKL formalism, enabling more precise studies of jet production in diffractive events with rapidity gaps.

Contribution

It provides the first NLO computation of the forward jet vertex coupled to a rapidity gap within the BFKL framework, advancing theoretical tools for diffractive jet analysis.

Findings

01

Enables NLO analysis of jet-gap-jet processes

02

Improves theoretical precision in diffractive jet predictions

03

Facilitates comparison with experimental data

Abstract

We give an overview of the calculation of the forward jet vertex associated to a rapidity gap (coupling of a hard pomeron to a jet) in the Balitsky-Fadin-Kuraev-Lipatov (BFKL) formalism at next-to-leading order (NLO). This result allows, together with the NLO non-forward gluon Green function, to perform NLO studies of jet production in diffractive events (Mueller-Tang dijets, as a well-known example)

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