Path-length dependence of parton and jet energy loss from universal scaling laws

Abstract

The universal dependence of hadron suppression, RAA(p), observed at large-p in heavy ion collisions at RHIC and LHC allows for a systematic determination of the average parton energy loss ε in quark-gluon plasma (QGP). A simple relation between ε and the soft particle multiplicity allows for probing the dependence of parton energy loss on the medium path-length. We find that all the available measurements are consistent with ε Lβ with β=1.020.090.06, consistent with the pQCD expectation of parton energy loss in a longitudinally expanding QGP. We then show, based on the model predictions, that the data on the azimuthal anisotropy coefficient divided by the collision eccentricity, v2/e, follows the same scaling property as RAA. Finally, a linear relationship between v2/e and the logarithmic derivative of RAA at large p offers a purely data-driven access to the L dependence of parton energy loss. Quite remarkably, both hadron and jet measurements obey this latter relationship, moreover with consistent values of β. This points to the same parametric path-length dependence of parton and jet energy loss in QGP.

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