The Gluon-Induced Mueller-Tang Jet Impact Factor at Next-to-Leading   Order

Martin Hentschinski; Jos\'e Daniel Madrigal Mart\'inez; Beatrice; Murdaca; Agust\'in Sabio Vera

arXiv:1409.6704·hep-ph·November 11, 2014

The Gluon-Induced Mueller-Tang Jet Impact Factor at Next-to-Leading Order

Martin Hentschinski, Jos\'e Daniel Madrigal Mart\'inez, Beatrice, Murdaca, Agust\'in Sabio Vera

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TL;DR

This paper computes the next-to-leading order gluon-induced Mueller-Tang jet impact factor using Lipatov's effective action, enhancing the theoretical tools for studying large rapidity gap phenomena in high-energy QCD.

Contribution

It completes the NLO calculation of the Mueller-Tang impact factor by including real gluon corrections, crucial for accurate BFKL-based phenomenology.

Findings

01

NLO impact factor computed with real gluon corrections.

02

Enhanced theoretical framework for large rapidity gap studies.

03

Improved precision in BFKL phenomenological predictions.

Abstract

We complete the computation of the Mueller-Tang jet impact factor at next-to-leading order (NLO) initiated in arXiv:1406.5625 and presented in arXiv:1404.2937 by computing the real corrections associated to gluons in the initial state making use of Lipatov's effective action. NLO corrections for this effective vertex are an important ingredient for a reliable description of large rapidity gap phenomenology within the BFKL approach.

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