Collisional and radiative energy loss in small systems

Abstract

We present an energy loss model which includes small system size corrections to both the radiative and elastic energy loss. Our model is used to compute the nuclear modification factor RAB of light and heavy flavor hadrons, averaged over realistic collision geometries for central and peripheral A+A and central p / d / 3He + A collisions at LHC and RHIC. We find that the predicted suppression in small systems is almost entirely due to elastic energy loss. Our results are keenly sensitive to the crossover between elastic energy loss calculated with hard thermal loop propagators and vacuum propagators, respectively, which leads to a large theoretical uncertainty. We find that the RAB is largely insensitive to the form of the elastic energy loss distribution - Gaussian or Poisson - surprisingly so in small systems where the central limit theorem is inapplicable. We present an expansion of the RAB in terms of the moments of the energy loss probability distribution, which allows for a rigorous understanding of the dependence of the RAB on the underlying energy loss distribution.