Medium modification of averaged jet charge in heavy-ion collisions

TL;DR

This paper presents the first theoretical analysis of how jet charge is altered in heavy-ion collisions due to parton energy loss in the quark-gluon plasma, using a modified Monte Carlo model.

Contribution

It introduces a novel theoretical study of medium modifications of jet charge in high-energy nuclear collisions with numerical simulations.

Findings

Average jet charge is significantly modified in A+A collisions compared to p+p.

Differences between quark and gluon jet charges are observed in heavy-ion environments.

Jet charge modifications are sensitive to flavor-dependent energy loss patterns.

Abstract

Jet charge characterizes the electric charge distribution inside a jet. In this talk we make the first theoretical study of jet charge in high-energy nuclear collisions and calculate numerically the medium alternations of jet charge due to parton energy loss in the quark-gluon plasma. The parton multiple scattering in hot/dense QCD medium is simulated by a modified version of PYQUEN Monte Carlo model with 3+1D ideal hydrodynamical evolution of the fireball. Our preliminary results show that the averaged jet charge is significant modified in A+A collisions relative to that in p+p. The different features of quark jet charge and gluon jet charge in heavy-ion collisions, and the sensitivity of jet charge modifications to flavour dependence of energy loss are observed, which could then be used to discriminate quark and gluon jet as well as their energy loss patterns in heavy-ion collisions.