Bayesian inference of the path-length dependence of jet energy loss

Abstract

A simple model for medium modification of the jet function can be used to extract the jet energy loss distribution through a parameterized form. We carry out a comprehensive Bayesian analysis of the world data on single inclusive jet spectra in heavy-ion collisions at both RHIC and LHC energies. We extract the average jet energy loss E as a function of jet transverse momentum pT for each collision system and centrality independently. Assuming jet energy loss is proportional to the initial parton density dN ch/dη/π R eff2 as estimated from the pseudorapidity density of charged hadron multiplicity dN ch/dη and the effective system size R eff N part1/3 given by the number of participant nucleons N part, the scaled average jet energy loss E/ R eff0.59 pT0.13 pT for jet cone-size R=0.4 is found to have a momentum dependence that is slightly stronger than a logarithmic form while the system size or length dependence is slower than a linear one. The fluctuation of jet energy loss is, however, independent of the initial parton density or the system size.