Collisional broadening of angular correlations in a multiphase transport model

TL;DR

This study investigates how jetlike correlations broaden due to collisional effects in a quark-gluon medium using a multiphase transport model, providing insights into jet-medium interactions in heavy ion collisions.

Contribution

It offers a detailed transport model analysis of collisional broadening of jetlike correlations, highlighting dependence on collision number and azimuthal angle, serving as a reference for future studies.

Findings

Correlation broadens with increasing number of parton collisions.

Out-of-plane correlations are broader than in-plane.

Provides a transport model benchmark for jet-medium interaction studies.

Abstract

Systematic comparisons of jetlike correlation data to radiative and collisional energy loss model calculations are essential to extract transport properties of the quark-gluon medium created in relativistic heavy ion collisions. This paper presents a transport study of collisional broadening of jetlike correlations, by following parton-parton collision history in a multiphase transport (AMPT) model. The correlation shape is studied as a function of the number of parton-parton collisions suffered by a high transverse momentum probe parton ($N_{\rm coll}$) and the azimuth of the probe relative to the reaction plane ($\phi_{\rm fin.}^{\rm probe}$). Correlation is found to broaden with increasing $N_{\rm coll}$ and $\phi_{\rm fin.}^{\rm probe}$ from in- to out-of-plane direction. This study provides a transport model reference for future jet-medium interaction studies.