We study the long time behaviour of large systems of ordinary differential equations with random data. Our main focus is a Hamiltonian system which describes a distinguished particle attached to a large collection of heat bath particles by springs. In the limit where the size of the heat bath tends to infinity the trajectory of the distinguished particle can be weakly approximated, on finite time intervals, by a Langevin stochastic differential equation. We examine the long term behaviour of these trajectories, both analytically and numerically. We find ergodic behaviour manifest in both the long time empirical measures and in the resulting auto-correlation functions
Rocco, Andrea, Two-fold role of randomness: a source of both long-range cor-relations and ordinary s...
112 pagesMost physical systems are modelled by an ordinary or a partial differential equation, like ...
A key interest in the study of interacting spin systems is the rigorous analysis of the macroscopic ...
We study the long-time behaviour of large systems of ordinary differential equations with random dat...
The focus of the proposal is the study of the long time behaviour in dynamical systems. This is a mo...
In this paper the authors analyze the long time behavior of certain Markov chains, namely jump proce...
30 pages, 48 ref.We establish a large deviation principle for time dependent trajectories (paths) of...
Abstract. In recent years there has been considerable interest in understand-ing the motion in Hamil...
Diffusion of moving particles in stationary disordered media is studied using a phenomenological mod...
Diffusion of moving particles in stationary disordered media is studied using a phenomenological mod...
Several approaches exist to model the evolution of dynamical systems with large populations. These a...
The behavior of autocorrelation functions in a K system (the stadium billiard) is studied, and the e...
Abstract: In ergodic physical systems, time-averaged quantities converge (for large times) to their ...
International audienceWe present a systematic analysis of stochastic processes conditioned on an emp...
It is well known that, generically, integrable Hamiltonian systems subjected to small, time-dependen...
Rocco, Andrea, Two-fold role of randomness: a source of both long-range cor-relations and ordinary s...
112 pagesMost physical systems are modelled by an ordinary or a partial differential equation, like ...
A key interest in the study of interacting spin systems is the rigorous analysis of the macroscopic ...
We study the long-time behaviour of large systems of ordinary differential equations with random dat...
The focus of the proposal is the study of the long time behaviour in dynamical systems. This is a mo...
In this paper the authors analyze the long time behavior of certain Markov chains, namely jump proce...
30 pages, 48 ref.We establish a large deviation principle for time dependent trajectories (paths) of...
Abstract. In recent years there has been considerable interest in understand-ing the motion in Hamil...
Diffusion of moving particles in stationary disordered media is studied using a phenomenological mod...
Diffusion of moving particles in stationary disordered media is studied using a phenomenological mod...
Several approaches exist to model the evolution of dynamical systems with large populations. These a...
The behavior of autocorrelation functions in a K system (the stadium billiard) is studied, and the e...
Abstract: In ergodic physical systems, time-averaged quantities converge (for large times) to their ...
International audienceWe present a systematic analysis of stochastic processes conditioned on an emp...
It is well known that, generically, integrable Hamiltonian systems subjected to small, time-dependen...
Rocco, Andrea, Two-fold role of randomness: a source of both long-range cor-relations and ordinary s...
112 pagesMost physical systems are modelled by an ordinary or a partial differential equation, like ...
A key interest in the study of interacting spin systems is the rigorous analysis of the macroscopic ...