In-medium transverse momentum broadening effects on di-jet observables

TL;DR

This paper investigates how in-medium transverse momentum broadening affects di-jet observables in high-energy heavy ion collisions, using Monte Carlo simulations to model jet-medium interactions and studying deviations from Gaussian broadening.

Contribution

It introduces a detailed Monte Carlo simulation framework incorporating transverse kicks and medium-induced radiation to study jet broadening effects in quark-gluon plasma.

Findings

Qualitative analysis of dijet decorrelation

Observation of deviations from Gaussian broadening

Insights into jet-medium interaction mechanisms

Abstract

Heavy ion collisions at high energies can be used as an interesting way to recreate and study the medium of the quark-gluon plasma (QGP). We particularly investigate the jets produced in hard binary collisions and their interactions with a tentative medium. These jets were obtained numerically from the Monte-Carlo simulations of hard collisions using the KATIE-algorithm [1], where parton momenta within the colliding nucleons were describe by means of unintegrated parton distribution functions (uPDF). We evolved these jets within a medium that contains both, transverse kicks (yielding a broadening in momentum transvers to the jet-axis) as well as medium induced radiation within the MINCAS-algorithm [2] following the works of [3,4]. We produce qualitative results for the decorrelation of dijets. In particular, we study deviations from a transverse momentum broadening that follows a Gaussian distribution. [1] A. van Hameren, Comput.Phys.Commun. 224 (2018) 371-380 [2] K. Kutak, W. P{\l}aczek, R. Straka, Eur.Phys.J. C79 (2019) no.4, 317 [3] J.-P. Blaizot, F. Dominguez, E. Iancu, Y. Mehtar-Tani, JHEP 1301 (2013) 143 [4] J.-P. Blaizot, F. Dominguez, E. Iancu, Y. Mehtar-Tani, JHEP 1406 (2014) 075