Add to ORKGIn this paper we study the problem of the numerical calculation (by Monte Carlo Methods) of the effective diffusivity for a particle moving in a periodic divergent-free velocity filed, in the limit of vanishing molecular diffusion. In this limit traditional numerical methods typically fail, since they do not represent accurately the geometry of the underlying deterministic dynamics. We propose a stochastic splitting method that takes into account the volume preserving property of the equations motion in the absence of noise, and when inertial effects can be neglected. An extension of the method is then proposed for the cases where the noise has a non trivial time-correlation structure and when inertial effects cannot be neglected. Modified ...
International audienceIn this work, we address the systematic biases and random errors stemming from...
© 2018 Society for Industrial and Applied Mathematics. We develop a new Monte Carlo method that solv...
Analytical results are derived for the effective dispersion of a passive scalar in a stochastic velo...
In this paper we study the problem of the numerical calculation (by Monte Carlo methods) of the effe...
The long-time / large-scales behaviour of solutions to stochastic differentials equations (SDEs) des...
The transport of inertial particles in incompressible flows and subject to molecular diffusion is st...
The equation for nonlinear diffusion can be rearranged to a form that immediately leads to its stoch...
When modelling diffusive systems with stochastic differential equations, a question about interpreta...
We study the problem of homogenization for inertial particles moving in a time-dependent random velo...
International audienceIn this article, we propose new Monte Carlo techniques for moving a diffusive ...
International audienceWe consider linear and nonlinear reaction-diffusion problems, and their time d...
We consider a particle diffusing in a bounded, crowded, rearranging medium. The rearrangement happen...
This article discusses some numerical pitfalls associated with the classical solution of stochastic ...
Abstract. We study the problem of homogenization for inertial particles moving in a time dependent r...
Many biological, chemical and physical problems can be reduced to that of the diffusion of a particl...
International audienceIn this work, we address the systematic biases and random errors stemming from...
© 2018 Society for Industrial and Applied Mathematics. We develop a new Monte Carlo method that solv...
Analytical results are derived for the effective dispersion of a passive scalar in a stochastic velo...
In this paper we study the problem of the numerical calculation (by Monte Carlo methods) of the effe...
The long-time / large-scales behaviour of solutions to stochastic differentials equations (SDEs) des...
The transport of inertial particles in incompressible flows and subject to molecular diffusion is st...
The equation for nonlinear diffusion can be rearranged to a form that immediately leads to its stoch...
When modelling diffusive systems with stochastic differential equations, a question about interpreta...
We study the problem of homogenization for inertial particles moving in a time-dependent random velo...
International audienceIn this article, we propose new Monte Carlo techniques for moving a diffusive ...
International audienceWe consider linear and nonlinear reaction-diffusion problems, and their time d...
We consider a particle diffusing in a bounded, crowded, rearranging medium. The rearrangement happen...
This article discusses some numerical pitfalls associated with the classical solution of stochastic ...
Abstract. We study the problem of homogenization for inertial particles moving in a time dependent r...
Many biological, chemical and physical problems can be reduced to that of the diffusion of a particl...
International audienceIn this work, we address the systematic biases and random errors stemming from...
© 2018 Society for Industrial and Applied Mathematics. We develop a new Monte Carlo method that solv...
Analytical results are derived for the effective dispersion of a passive scalar in a stochastic velo...