Evidence for BFKL and saturation dynamics from di-hadron spectra at the   LHC

Kevin Dusling; Raju Venugopalan

arXiv:1210.3890·hep-ph·March 27, 2013

Evidence for BFKL and saturation dynamics from di-hadron spectra at the LHC

Kevin Dusling, Raju Venugopalan

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TL;DR

This paper shows that di-hadron spectra in high-multiplicity proton-proton collisions at the LHC can be explained by BFKL and saturation physics, and predicts similar behavior in proton-nucleus collisions.

Contribution

It provides a quantitative description of di-hadron spectra using BFKL and saturation models and extends predictions to proton-nucleus collisions at the LHC.

Findings

01

Di-hadron spectra are well described by BFKL and saturation dynamics.

02

Predictions for di-hadron spectra in proton-nucleus collisions at the LHC.

03

Supports the relevance of saturation physics in high-energy collisions.

Abstract

We demonstrate that rapidity separated di-hadron spectra in high multiplicity proton-proton collisions at the LHC can be quantitatively described by a combination of BFKL and saturation dynamics. Based on these results, we predict the systematics of di-hadron spectra in proton-nucleus collisions at the LHC.

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