Heavy Quark Diffusion in Strongly Coupled =4 Yang Mills
Abstract
We express the heavy quark diffusion coefficient as the temporal variation of a Wilson line along the Schwinger-Keldysh contour. This generalizes the classical formula for diffusion as a force-force correlator to a non-abelian theory. We use this formula to compute the diffusion coefficient in strongly coupled =4 Yang-Mills by studying the fluctuations of a string in AdS5× S5. The string solution spans the full Kruskal plane and gives access to contour correlations. The diffusion coefficient is D=2/λ π T and is therefore parametrically smaller than momentum diffusion, η/(e+p)=1/4π T. The quark mass must be much greater than Tλ in order to treat the quark as a heavy quasi-particle. The result is discussed in the context of the RHIC experiments.
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