Contrasting Features of Parton Energy Loss in Heavy-ion Collisions at RHIC and the LHC

Abstract

Energetic quarks and gluons lose energy as they traverse the hot and dense medium created in high-energy heavy-ion collisions at the BNL Relativistic Heavy Ion Collider (RHIC) and the CERN Large Hadron Collider (LHC). The nuclear modification factor (RAA) of leading particles quantifies parton energy loss in such collisions, with the particle spectrum in p+p collisions as a reference. Previous RAA measurements at RHIC energies have revealed an approximately constant trend at high transverse momenta (pT), implying a scenario where parton energy loss, pT, scales proportionally with pT, a feature naively expected from energy loss dynamics in elastic collisions. In this study, we investigate the LHC RAA measurements which exhibit a pronounced pT dependence of RAA for various particle species, and our analysis attributes this behavior to pT being approximately proportional to pT. These distinct features are consistent with model calculations of dominant radiative energy loss dynamics at the LHC, in contrast to the dominance of collisional energy loss at RHIC. Additionally, the linear increase of fractional energy loss with medium density at different pT magnitudes affirms the previous empirical observation that the magnitude of the energy loss depends mostly on the initial entropy density, with no significant path-length dependence. Implications on the dynamical scenarios of parton energy loss and future experimental investigations will also be discussed.