Equilibration of a strongly interacting plasma: holographic analysis of local and nonlocal probes

Equilibration of a strongly interacting plasma: holographic analysis of local and nonlocal probes

Blog Article

The relaxation of a strongly coupled plasma towards the hydrodynamic regime is studied by analyzing the evolution of local and nonlocal observables in the holographic approach.The system is driven in an initial Tinctures anisotropic and far-from equilibrium state through an impulsive time-dependent deformation (quench) of the boundary spacetime geometry.Effective temperature and entropy density are related to the position and area of a black hole horizon, which has formed as a consequence of the distortion.The behavior of stress-energy tensor, equal-time correlation functions and Wilson loops of different shapes is examined, and a hierarchy among their thermalization times emerges: probes involving shorter length scales Glass Blunts thermalize faster.