E. Lutz
Published 2001-03-06Version 1
We investigate fractional Brownian motion with a microscopic random-matrix model and introduce a fractional Langevin equation. We use the latter to study both sub- and superdiffusion of a free particle coupled to a fractal heat bath. We further compare fractional Brownian motion with the fractal time process. The respective mean-square displacements of these two forms of anomalous diffusion exhibit the same power-law behavior. Here we show that their lowest moments are actually all identical, except the second moment of the velocity. This provides a simple criterion which enables to distinguish these two non-Markovian processes.
Foundation of Fractional Langevin Equation: Harmonization of a Many Body Problem
Fractional Langevin Equation: Over-Damped, Under-Damped and Critical Behaviors
Brownian motion and anomalous diffusion revisited via a fractional Langevin equation
