Photon-jet ridge at RHIC and the LHC

TL;DR

This paper explores long-range correlations between prompt photons and jets in high-energy collisions, revealing ridge-like features linked to gluon saturation effects, which may explain similar phenomena observed in di-hadron correlations at RHIC and the LHC.

Contribution

It demonstrates that photon-jet correlations exhibit ridge-like structures influenced by gluon saturation, providing new insights into the origin of the di-hadron ridge phenomenon.

Findings

Photon-jet correlations show near-side azimuthal collimation at low transverse momenta.

Ridge-like features are similar to those observed in di-hadron correlations.

Hadronization effects significantly influence photon-jet correlation patterns.

Abstract

We investigate long range rapidity correlations of pairs of prompt photon and jet in the Color Glass Condensate (CGC) framework in proton-proton and proton-nucleus collisions at RHIC and the LHC. We show that photon-jet correlations exhibit long-range azimuthal collimation at near-side for low transverse momenta of the produced photon and jet in high-multiplicity events. These ridge-like features are strikingly similar to the observed ridge effect for di-hadron correlations at RHIC and the LHC. We show that correlations in the relative rapidity and the relative azimuthal angle between pairs of prompt photon and jet strongly depend on the gluon saturation dynamics at small-x kinematics and such measurements can help to understand the true origin of the observed di-hadron ridge in p+A collisions, and address whether the ridge is a universal phenomenon for all two particle correlations at high energy and high multiplicity events. We also investigate if there is a ridge-like structure for photon-hadron pair correlations at RHIC and the LHC. We found that the hadronization of jet has non-trivial effects on the photon-jet correlations.