Finite Temperature Spectral Densities of Momentum and R-Charge Correlators in =4 Yang Mills Theory
Abstract
We compute spectral densities of momentum and R-charge correlators in thermal =4 Yang Mills at strong coupling using the AdS/CFT correspondence. For ω T and smaller, the spectral density differs markedly from perturbation theory; there is no kinetic theory peak. For large ω, the spectral density oscillates around the zero-temperature result with an exponentially decreasing amplitude. Contrast this with QCD where the spectral density of the current-current correlator approaches the zero temperature result like (T/ω)4. Despite these marked differences with perturbation theory, in Euclidean space-time the correlators differ by only 10% from the free result. The implications for Lattice QCD measurements of transport are discussed.
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