Near-extremal holographic charge correlators

Abstract

We analytically compute the low-temperature charge correlators in near-extremal black holes with a planar horizon and an infrared AdS2× R2 extremal geometry, finding excellent agreement with numerical calculations. The analytical result consistently describes the crossover between the hydrodynamic diffusive regime at low frequencies and wavenumbers, and the quantum, zero-temperature regime at high frequencies and wavenumbers. We analytically resolve the successive collisions between the diffusive pole and the non-hydrodynamic poles sourced by the infrared AdS2× R2 geometry. We demonstrate that in the T=0 limit, a pair of gapless poles survive with a dispersion relation ω=-i d2 k2-i d4 k4-i d4 k4( iπ+ k2) . The nonanalytic contributions arise from the interplay with the branch cut formed by the condensation of the non-hydrodynamic poles. The real part is caused by the `snatching' of one of the non-hydrodynamic poles by the hydrodynamic diffusive pole.