We develop a space-time renormalization-group method to study diffusion in a disordered medium. We prove rigorously that a random walk with transition probabilities given by a random matrix diffuses in a Brownian way for weak disorder if d > 2. We also show that the disorder induces polynomial decay of velocity-velocity correlations
It aas shown by G. Radons(1) that, for a large class of one-dimensional maps, diffusion is suppresse...
This thesis is the report of a study of several different problems in statistical physics. The first...
This thesis examines the topic of classical diffusion of a particle in the presence of disorder. The...
The diffusion of a polymer chain in a random environment is studied by means of the RG method. Below...
The Brownian motion in quenched disordered media is studied from a stochastic point of view using ra...
We study the scaling laws of diffusion in two-dimensional media with long-range correlated disorder ...
We show, through physical arguments and a renormalization group analysis, that in the presence of lo...
The effect of a random potential on the diffusion coefficient of a polymer is shown to be a relevant...
A classical result of probability theory states that under suitable space and time renormalization, ...
International audienceWe consider a random-hopping model on a regular lattice. We describe a method ...
We consider a continuous time random walk on the d-dimensional integer lattice in an environment whi...
5 pages, 1 figures, RevTexSinai\'s model of diffusion in one-dimension with random local bias is stu...
We study the problem of a random walk on a lattice in which bonds connecting nearest neighbor sites ...
In this work, we present a statistical analysis of the wave motion through random media with perfect...
Diffusion in disordered media can be modelled by the anomalous diffusion in fractals. Up to now, usu...
It aas shown by G. Radons(1) that, for a large class of one-dimensional maps, diffusion is suppresse...
This thesis is the report of a study of several different problems in statistical physics. The first...
This thesis examines the topic of classical diffusion of a particle in the presence of disorder. The...
The diffusion of a polymer chain in a random environment is studied by means of the RG method. Below...
The Brownian motion in quenched disordered media is studied from a stochastic point of view using ra...
We study the scaling laws of diffusion in two-dimensional media with long-range correlated disorder ...
We show, through physical arguments and a renormalization group analysis, that in the presence of lo...
The effect of a random potential on the diffusion coefficient of a polymer is shown to be a relevant...
A classical result of probability theory states that under suitable space and time renormalization, ...
International audienceWe consider a random-hopping model on a regular lattice. We describe a method ...
We consider a continuous time random walk on the d-dimensional integer lattice in an environment whi...
5 pages, 1 figures, RevTexSinai\'s model of diffusion in one-dimension with random local bias is stu...
We study the problem of a random walk on a lattice in which bonds connecting nearest neighbor sites ...
In this work, we present a statistical analysis of the wave motion through random media with perfect...
Diffusion in disordered media can be modelled by the anomalous diffusion in fractals. Up to now, usu...
It aas shown by G. Radons(1) that, for a large class of one-dimensional maps, diffusion is suppresse...
This thesis is the report of a study of several different problems in statistical physics. The first...
This thesis examines the topic of classical diffusion of a particle in the presence of disorder. The...