HEAVY ION COLLISIONS AND BLACK HOLE DYNAMICSThis essay was awarded the 3rd Prize in the 2007 Essay Competition of the Gravity Research Foundation. It is a republication of Gen. Relativ. Gravit.39 (2007) 1533. STEVEN S. GUBSER Joseph Henry Laboratories, Princeton University, Princeton, NJ 08544, USA Received: 29 January 2008 Relativistic heavy ion collisions create a strongly coupled quark–gluon plasma. Some of the plasma's properties can be approximately understood in terms of a dual black hole. These properties include shear viscosity, thermalization time, and drag force on heavy quarks. They are hard to calculate from first principles in QCD. Extracting predictions about quark–gluon plasmas from dual black holes mostly involves solving Einstein's equations and classical string equations of motion. AdS/CFT provides a translation from gravitational calculations to gauge theory predictions. The gauge theory to which the predictions apply is Keywords: Black holes; heavy-ion collisions; gauge–string duality Access to the content you have requested requires one of the following:
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