Probing the path-length dependence of parton energy loss via scaling properties in heavy ion collisions
Abstract
The scaling property of large-p hadron suppression, RAA(p), measured in heavy ion collisions at RHIC and LHC leads to the determination of the average parton energy loss ε in quark-gluon plasma produced in a variety of collision systems and centrality classes. Relating ε to the particle multiplicity and collision geometry allows for probing the dependence of parton energy loss on the path-length L. We find that ε Lβ with β=1.02+0.09-0.06, consistent with the pQCD expectation of parton energy loss in a longitudinally expanding quark-gluon plasma. We then demonstrate that the azimuthal anisotropy coefficient divided by the collision eccentricity, v2/e, follows the same scaling property as RAA. This scaling is observed in data, which are reproduced by the model at large p. Finally, a linear relationship between v2/e and the logarithmic derivative of RAA is found and confirmed in data, offering an additional way to probe the L dependence of parton energy loss using coming measurements from LHC Run 3.
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