Calculating the Jet Quenching Parameter from AdS/CFT
Abstract
Models of medium-induced radiative parton energy loss account for the strong suppression of high-pT hadron spectra in sNN=200 GeV Au-Au collisions at RHIC in terms of a single "jet quenching parameter'' q. The available suite of jet quenching measurements make q one of the experimentally best constrained properties of the hot fluid produced in RHIC collisions. We observe that q can be given a model-independent, nonperturbative, quantum field theoretic definition in terms of the short-distance behavior of a particular light-like Wilson loop. We then use the AdS/CFT correspondence to obtain a strong-coupling calculation of q in hot N=4 supersymmetric QCD, finding qSYM = 26.69 αSYM Nc T3 in the limit in which both Nc and 4παSYM Nc are large. We thus learn that at strong coupling q is not proportional to the entropy density s, or to some "number density of scatterers'' since, unlike the number of degrees of freedom, q does not grow like Nc2.
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