Explicit expressions are derived for thermal transport coefficients (heat conductivity, viscosities) L(ρ, β ) as a function of density and temperature for a cellular automaton fluid with nontrivial energy conservation and a physically meaningful definition of temperature. The functions L(ρ, β ) are studied analytically and numerically, using mean field theory. They show nonanalytic and scaling behavior at low temperature in the neighborhood of special densities. We also study the staggered diffusivities arising from spuriously conserved quantities in lattice gases. As a square lattice does not have the isotropic symmetry of a fluid we explore the ways of implementing isotropy at the level of the nonlinear Navier-Stokes equation
International audienceWe calculate transport properties of a reacting mixture of F and F2 from resul...
AbstractWe study a purely repulsive lattice gas model. The chemical versus temperature phase diagram...
We study a purely repulsive lattice gas model. The chemical versus temperature phase diagram is obta...
The concepts of local temperature and local thermal equilibrium are introduced in the context of lat...
Note:The Lattice Gas Cellular Automata method is a useful approximation for modeling fluids. It deal...
A Monte Carlo simulation is presented for the tracers\u27 diffusion of an interacting lattice gas mo...
We investigate the relation between thermodynamic and dynamic properties of an associating lattice g...
We investigate the space and time behavior of spontaneous thermohydrodynamic fluctuations in a simpl...
We provide a tutorial introduction to the modern theoretical and computational schemes available to ...
Temperature variation of transport coefficients of liquid argon below temperature of 1 K (in reduced...
The thermal resistance of a crystal lattice with a monatomic unit cell due to three-phonon scatterin...
A two dimensional toy model is developed to study thermal transport in cage like structures such a s...
We investigate random walk of a particle constrained on cells, where cells behave as a lattice gas o...
The thermodynamic and transport properties of diffusing species in microporous materials are strongl...
Atomic-level thermal transport is explored using lattice dynamics theory and molecular dynamics (MD)...
International audienceWe calculate transport properties of a reacting mixture of F and F2 from resul...
AbstractWe study a purely repulsive lattice gas model. The chemical versus temperature phase diagram...
We study a purely repulsive lattice gas model. The chemical versus temperature phase diagram is obta...
The concepts of local temperature and local thermal equilibrium are introduced in the context of lat...
Note:The Lattice Gas Cellular Automata method is a useful approximation for modeling fluids. It deal...
A Monte Carlo simulation is presented for the tracers\u27 diffusion of an interacting lattice gas mo...
We investigate the relation between thermodynamic and dynamic properties of an associating lattice g...
We investigate the space and time behavior of spontaneous thermohydrodynamic fluctuations in a simpl...
We provide a tutorial introduction to the modern theoretical and computational schemes available to ...
Temperature variation of transport coefficients of liquid argon below temperature of 1 K (in reduced...
The thermal resistance of a crystal lattice with a monatomic unit cell due to three-phonon scatterin...
A two dimensional toy model is developed to study thermal transport in cage like structures such a s...
We investigate random walk of a particle constrained on cells, where cells behave as a lattice gas o...
The thermodynamic and transport properties of diffusing species in microporous materials are strongl...
Atomic-level thermal transport is explored using lattice dynamics theory and molecular dynamics (MD)...
International audienceWe calculate transport properties of a reacting mixture of F and F2 from resul...
AbstractWe study a purely repulsive lattice gas model. The chemical versus temperature phase diagram...
We study a purely repulsive lattice gas model. The chemical versus temperature phase diagram is obta...