Factorization of Jet Cross Sections in Heavy-Ion Collisions.

We propose a new phenomenological approach to establish QCD factorization of jet cross sections in the heavy-ion environment. Starting from a factorization formalism in proton-proton collisions, we introduce medium modified jet functions to capture the leading interaction of jets with the hot and dense QCD medium. A global analysis using a Monte Carlo sampling approach is performed in order to reliably determine the new jet functions from the nuclear modification factor of inclusive jets at the LHC.

Energy versus centrality dependence of the jet quenching parameter [Formula: see text] at RHIC and LHC: a new puzzle?

The central goal of jet quenching studies in high-energy nuclear collisions is the characterization of those QCD medium properties that are accessible by these probes. Most of the discussion in the last years has been focused on the determination of the jet quenching parameter, [Formula: see text]. We present here an extraction of this parameter using data of inclusive particle suppression at RHIC and LHC energies for different centralities.

An analysis of the impact of LHC Run I proton-lead data on nuclear parton densities.

We report on an analysis of the impact of available experimental data on hard processes in proton-lead collisions during Run I at the large hadron collider on nuclear modifications of parton distribution functions. Our analysis is restricted to the EPS09 and DSSZ global fits. The measurements that we consider comprise production of massive gauge bosons, jets, charged hadrons and pions.