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- 2012 (2) (remove)

#### Keywords

- Asymptotic expansions (1)
- Composite fractional derivative (1)
- Fox H-function (1)
- Fractional diffusion equation (1)
- Fractional moments (1)
- Grunwald-Letnikov approximation (1)
- Mittag-Leffler functions (1)
- Riesz-Feller fractional derivative (1)
- anomalous diffusion (1)
- fractional generalized Langevin equation (1)

Generalized space-time fractional diffusion equation with composite fractional time derivative
(2012)

We investigate the solution of space-time fractional diffusion equations with a generalized Riemann-Liouville time fractional derivative and Riesz-Feller space fractional derivative. The Laplace and Fourier transform methods are applied to solve the proposed fractional diffusion equation. The results are represented by using the Mittag-Leffler functions and the Fox H-function. Special cases of the initial and boundary conditions are considered. Numerical scheme and Grunwald-Letnikov approximation are also used to solve the space-time fractional diffusion equation. The fractional moments of the fundamental solution of the considered space-time fractional diffusion equation are obtained. Many known results are special cases of those obtained in this paper. We investigate also the solution of a space-time fractional diffusion equations with a singular term of the form delta(x). t-beta/Gamma(1-beta) (beta > 0).

Velocity and displacement correlation functions for fractional generalized Langevin equations
(2012)

We study analytically a generalized fractional Langevin equation. General formulas for calculation of variances and the mean square displacement are derived. Cases with a three parameter Mittag-Leffler frictional memory kernel are considered. Exact results in terms of the Mittag-Leffler type functions for the relaxation functions, average velocity and average particle displacement are obtained. The mean square displacement and variances are investigated analytically. Asymptotic behaviors of the particle in the short and long time limit are found. The model considered in this paper may be used for modeling anomalous diffusive processes in complex media including phenomena similar to single file diffusion or possible generalizations thereof. We show the importance of the initial conditions on the anomalous diffusive behavior of the particle.