Event-by-Event Multiplicity Fluctuations in Heavy-Ion Collisions Using Modified HIJING Monte Carlo Generator

TL;DR

This paper investigates event-by-event multiplicity fluctuations in heavy-ion collisions using a modified HIJING Monte Carlo generator, providing insights into the medium's nature and phase transition signatures relevant for QCD studies.

Contribution

It introduces a modified HIJING model incorporating partonic energy loss to analyze fluctuations, aiding in identifying medium types and phase transition signals.

Findings

Fluctuation patterns distinguish hot and cold media.

Energy loss models can be tested against fluctuation data.

Signatures of first-order phase transition are detectable.

Abstract

This work presents an analysis of event-by-event multiplicity fluctuations as a sensitive tool for diagnosing the state of matter produced in relativistic heavy-ion collisions. Using a modified version of the HIJING Monte Carlo generator, which integrates various models of partonic energy loss in hot (quark-gluon plasma) and cold media, the connection between fluctuation dynamics and system properties is investigated. It is shown that the nature and magnitude of fluctuations allow for the identification of the created medium type (hot or cold), the testing of the adequacy of energy loss models, and the detection of signatures of a first-order phase transition in different kinematic regions. The results obtained are important for interpreting the data from experiments aimed at mapping the QCD phase diagram and searching for the critical point.