After the Fluid: Subexponential Decay in AdS4

Abstract

We study the late-time behaviour of nonlinear perturbations of Schwarzschild-AdS4 black branes and show that real-analytic initial data generically enter a regime controlled by the large-k tail of the quasinormal mode spectrum \ωk\,n\. Using the asymptotic scaling Im\,ωk\,n k-1/5 of the planar AdS4 black brane, we derive a universal prediction that boundary observables decay in a stretched-exponential manner, specifically as (-c\, t5/6) up to a mild polynomial prefactor. Fully nonlinear numerical evolutions employing Fourier spectral and discontinuous Galerkin methods confirm this behaviour for small black holes and show consistent scaling - after suppressing long-lived low-k modes - for larger ones. These results indicate that stretched-exponential decay with exponent 5/6 is a robust feature of AdS4 gravitational dynamics with real-analytic data, arising from geometric-optics physics rather than hydrodynamic modes.