Seminar in Hadronic Physics

Energy and centrality dependence of the jet transport coefficient q̂ at RHIC and LHC: a new puzzle

Carlota Andrés Casas

Universidad de Santiago de Compostela

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, q̂. I will present an extraction of this parameter using data of single-inclusive particle suppression at RHIC and LHC energies for different centralities. Our approach consists of fitting a K factor that quantifies the departure of this parameter from an ideal estimate, K≡ q̂/(2ε^3/4), where q̂ is determined by the local medium quantities as provided by hydrodynamical calculations. We find that this K factor is larger at RHIC than at the LHC, as obtained already in previous analyses, but, surprisingly, it is almost independent of the centrality of the collision. Taken at face value, the K factor would not depend on the local properties of the medium as energy density or temperature, but on global collision quantities such as the center of mass energy. This is a very intriguing, unexpected possibility for which we cannot yet provide a clear interpretation. I will also comment on the limitations of the formalism that may affect this conclusion and on the outlook of this work.

Based on: Carlota Andrés, Néstor Armesto, Matthew Luzum, Carlos A. Salgado and Péa Zurita, Eur. Phys. J. C (2016) 76, 475, arXiv:1606.04837[hep-ph]