Guo Ran, Du Jiulin
Published 2015-04-24Version 1
We study the time behavior of the Fokker-Planck equation in Zwanzig rule (the backward-Ito rule) based on the Langevin equation of Brownian motion with an anomalous diffusion in a complex medium. The diffusion coefficient is a function in momentum space and follows a generalized fluctuation-dissipation relation. We obtain the precise time-dependent analytical solution of the Fokker-Planck equation and at long time the solution approaches to a stationary power-law distribution in nonextensive statistics. As a test, numerically we have demonstrated the accuracy and validity of the time-dependent solution.
Comments: 12 pages,6 figures
Dilatation symmetry of the Fokker-Planck equation and anomalous diffusion
Anomalous diffusion: A basic mechanism for the evolution of inhomogeneous systems
Thermo-kinetic approach of single-particles and clusters involving anomalous diffusion under viscoelastic response
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