The understanding of transport mechanisms in PDEs is at the core of some of the main open problems in fluid dynamics. The introduction of random perturbations in these equations may have an influence on the properties of transport. We report here some recent progresses on the interaction between noise and transport. The Lagrangian viewpoint is used to investigate the problem. In some example we observe that noise improves the properties of the Lagrangian motion and restores uniqueness or prevents blow-up of the associated PDE; in other examples this does not happen
We elucidate the differences and similarities of directed transport in periodic symmetric potentials...
We discuss some aspects of the intriguing problem of interplay between molecular diffusion and the g...
We consider the linear transport equation with a globally Hölder continuous and bounded vector field...
The understanding of transport mechanisms in PDEs is at the core of some of the main open problems i...
This volume deals with the random perturbation of PDEs which lack well-posedness, mainly because of ...
This volume deals with the random perturbation of PDEs which lack well-posedness, mainly because of ...
These lecture notes presents very recent progresses on the problem of the improvements of well posed...
In this work we present examples of the effects of noise on the solution of a partial differential e...
In the first part of the thesis, we discuss the implications of Lagrangian velocity noise for the E...
Motivated by a recent geometric approach for adding stochastic noise of “Lie transport” type to PDEs...
A system of interacting particles described by stochastic differential equations is considered. As o...
The role played on the scalar transport by a finite, not small, correlation time, $\tau_u$, for the...
This paper is concerned with the problem of regularization by noise of systems of reaction–diffusion...
Nature is inherently noisy and nonlinear. It is noisy in the sense that all macroscopic systems are ...
We study both numerically and analytically some simple Hamiltonian systems perturbed by a random noi...
We elucidate the differences and similarities of directed transport in periodic symmetric potentials...
We discuss some aspects of the intriguing problem of interplay between molecular diffusion and the g...
We consider the linear transport equation with a globally Hölder continuous and bounded vector field...
The understanding of transport mechanisms in PDEs is at the core of some of the main open problems i...
This volume deals with the random perturbation of PDEs which lack well-posedness, mainly because of ...
This volume deals with the random perturbation of PDEs which lack well-posedness, mainly because of ...
These lecture notes presents very recent progresses on the problem of the improvements of well posed...
In this work we present examples of the effects of noise on the solution of a partial differential e...
In the first part of the thesis, we discuss the implications of Lagrangian velocity noise for the E...
Motivated by a recent geometric approach for adding stochastic noise of “Lie transport” type to PDEs...
A system of interacting particles described by stochastic differential equations is considered. As o...
The role played on the scalar transport by a finite, not small, correlation time, $\tau_u$, for the...
This paper is concerned with the problem of regularization by noise of systems of reaction–diffusion...
Nature is inherently noisy and nonlinear. It is noisy in the sense that all macroscopic systems are ...
We study both numerically and analytically some simple Hamiltonian systems perturbed by a random noi...
We elucidate the differences and similarities of directed transport in periodic symmetric potentials...
We discuss some aspects of the intriguing problem of interplay between molecular diffusion and the g...
We consider the linear transport equation with a globally Hölder continuous and bounded vector field...