We perform numerical experiments to study the Lyapunov spectra of dynamical systems associated with the Navier-Stokes (NS) equation in two spatial dimensions truncated over the Fourier basis. Recently new equations, called GNS equations, have been introduced and conjectured to be equivalent to the NS equations at large Reynolds numbers. The Lyapunov spectra of the NS and of the corresponding GNS systems overlap, adding evidence in favor of the conjectured equivalence already studied and partially extended in previous papers. We make use of the Lyapunov spectra to study a fluctuation relation which had been proposed to extend the "fluctuation theorem" to strongly dissipative systems. Preliminary results towards the formulation of a local ver...
It is shown that the long-time dynamics (the global attractor) of the 2D Navier-Stokes system is emb...
In this work we characterize the chaotic properties of atomic fluids subjected to planar mixed flow,...
We study the motion of small particles in a random turbulent. flow assuming a linear law of friction...
We perform numerical experiments to study the Lyapunov spectra of dynamical systems associated with...
Recently, Gallavotti proposed an Equivalence Conjecture in hydrodynamics, which states that forced-d...
Recently, Gallavotti proposed an Equivalence Conjecture in hydrodynamics, which states that forced-d...
International audienceThis paper discusses the application of Lyapunov theory in chaotic systems to ...
An attempt to put togheter various theoretical, mathematical, or experimental results recently devel...
We compute the full Lyapunov spectra for a hard-disk fluid under temperature gradient and under shea...
In the context of the analysis of the chaotic properties of homogeneous and isotropic turbulence, di...
A reversible version of the Navier Stokes equation is studied. A conjecture emerges stating the equi...
We study the fractal and Hausforff dimensions of the universal attractor for the Navier-Stokes equat...
The fluctuation theorem is considered intrinsically linked to reversibility and therefore its phenom...
At the molecular level fluid motions are, by first principles, described by time reversible laws. On...
We discuss a shell-model for the 3D fully developed turbulence. By calculating the structure functio...
It is shown that the long-time dynamics (the global attractor) of the 2D Navier-Stokes system is emb...
In this work we characterize the chaotic properties of atomic fluids subjected to planar mixed flow,...
We study the motion of small particles in a random turbulent. flow assuming a linear law of friction...
We perform numerical experiments to study the Lyapunov spectra of dynamical systems associated with...
Recently, Gallavotti proposed an Equivalence Conjecture in hydrodynamics, which states that forced-d...
Recently, Gallavotti proposed an Equivalence Conjecture in hydrodynamics, which states that forced-d...
International audienceThis paper discusses the application of Lyapunov theory in chaotic systems to ...
An attempt to put togheter various theoretical, mathematical, or experimental results recently devel...
We compute the full Lyapunov spectra for a hard-disk fluid under temperature gradient and under shea...
In the context of the analysis of the chaotic properties of homogeneous and isotropic turbulence, di...
A reversible version of the Navier Stokes equation is studied. A conjecture emerges stating the equi...
We study the fractal and Hausforff dimensions of the universal attractor for the Navier-Stokes equat...
The fluctuation theorem is considered intrinsically linked to reversibility and therefore its phenom...
At the molecular level fluid motions are, by first principles, described by time reversible laws. On...
We discuss a shell-model for the 3D fully developed turbulence. By calculating the structure functio...
It is shown that the long-time dynamics (the global attractor) of the 2D Navier-Stokes system is emb...
In this work we characterize the chaotic properties of atomic fluids subjected to planar mixed flow,...
We study the motion of small particles in a random turbulent. flow assuming a linear law of friction...