We consider random walks in a random environment which are generalized versions of well-known effective models for Mott variable-range hopping. We study the homogenized diffusion constant of the random walk in the one-dimensional case. We prove various estimates on the low-temperature behavior which confirm and extend previous work by physicists
Consider a random environment in ${\mathbb Z}^d$ given by i.i.d. conductances. In this work, we obta...
International audienceWe study a one-dimensional spatial population model where the population sizes...
5 pages, 1 figures, RevTexSinai\'s model of diffusion in one-dimension with random local bias is stu...
We consider random walks in a random environment which are gener-alized versions of well-known effec...
Mott variable-range hopping is a fundamental mechanism for low-temperature electron conduction in di...
Mott variable-range hopping is a fundamental mechanism for low–temperature electron conduction in di...
We consider a random walk on the support of an ergodic simple point process on R-d, d >= 2, furnishe...
We consider a random walk on the support of a stationary simple point process on $\RR^d$, $d\geq 2$ ...
The recent work of Odagaki and Lax on the ac hopping conductivity in a one-dimensional bond-percolat...
We show that the hopping dynamics of two strongly connected particles can be mapped exactly to singl...
We consider a continuous time random walk on the d-dimensional integer lattice in an environment whi...
Summary: "We report some results of computer simulations for two models of random walks in random en...
A Langevin process describing diffusion in a periodic potential landscape has a time-dependent diffu...
The velocity and the diffusion coefficient of a particle on a periodic one-dimensional lattice of pe...
45 pagesIn this paper we study random walks on dynamical random environments in $1 + 1$ dimensions. ...
Consider a random environment in ${\mathbb Z}^d$ given by i.i.d. conductances. In this work, we obta...
International audienceWe study a one-dimensional spatial population model where the population sizes...
5 pages, 1 figures, RevTexSinai\'s model of diffusion in one-dimension with random local bias is stu...
We consider random walks in a random environment which are gener-alized versions of well-known effec...
Mott variable-range hopping is a fundamental mechanism for low-temperature electron conduction in di...
Mott variable-range hopping is a fundamental mechanism for low–temperature electron conduction in di...
We consider a random walk on the support of an ergodic simple point process on R-d, d >= 2, furnishe...
We consider a random walk on the support of a stationary simple point process on $\RR^d$, $d\geq 2$ ...
The recent work of Odagaki and Lax on the ac hopping conductivity in a one-dimensional bond-percolat...
We show that the hopping dynamics of two strongly connected particles can be mapped exactly to singl...
We consider a continuous time random walk on the d-dimensional integer lattice in an environment whi...
Summary: "We report some results of computer simulations for two models of random walks in random en...
A Langevin process describing diffusion in a periodic potential landscape has a time-dependent diffu...
The velocity and the diffusion coefficient of a particle on a periodic one-dimensional lattice of pe...
45 pagesIn this paper we study random walks on dynamical random environments in $1 + 1$ dimensions. ...
Consider a random environment in ${\mathbb Z}^d$ given by i.i.d. conductances. In this work, we obta...
International audienceWe study a one-dimensional spatial population model where the population sizes...
5 pages, 1 figures, RevTexSinai\'s model of diffusion in one-dimension with random local bias is stu...