Evaluating the double parton scattering contribution to Mueller-Navelet jets production at the LHC

TL;DR

This paper introduces a model to evaluate the significance of double parton scattering in Mueller-Navelet jets production at the LHC, comparing it with single scattering within the BFKL framework to understand its impact on observables.

Contribution

It presents a new model that incorporates double parton scattering into the analysis of Mueller-Navelet jets within the BFKL framework, aligning with existing single scattering calculations.

Findings

DPS can significantly affect the jet azimuthal correlations.

The model estimates the DPS contribution across various LHC kinematics.

Results suggest potential for future measurements to distinguish DPS effects.

Abstract

We propose a model to study the importance of double parton scattering (DPS) in Mueller-Navelet jets production at the LHC which is consistent with the BFKL framework used to compute the single parton scattering contribution to this process. We study this model in kinematics corresponding to existing and possible future measurements at the LHC and estimate the importance of this DPS contribution on relevant observables for this process, namely the cross section and the azimuthal correlation of the jets.