The goal of this project is to build on the understanding of the connections between knot invariants, exactly solvable statistical mechanics models and discrete dynamical systems that we have gained in earlier work, toward an answer to the question of how early and robust thermodynamic behavior appears in lattice gas automata
In recent years, discrete approaches have been widely used in mathematical modeling of physicochemic...
We model reaction-diffusion systems with reactive lattice gas automata, which possess intrinsic micr...
It has been known since 1986 that it is possible to construct simple lattice-gas cellular automata w...
The goal of this project has been to build on the understanding of the connections between knot inva...
Some of the issues raised by recent work on lattice gas automata are reviewed. © 1991.SCOPUS: ar.jin...
We investigate the space and time behavior of spontaneous thermohydrodynamic fluctuations in a simpl...
In this work two families of cellular automatas (CA) are studied as dynamical systems.The theory of ...
In this work two families of cellular automatas (CA) are studied as dynamical systems.The theory of ...
The entropic pressure in the vicinity of a cubic lattice knot is examined as a model of the entropic...
A simple lattice gas model, a microscopically reversible cellular automaton, is described and shown ...
We model reaction-diffusion systems with reactive lattice gas automata, which possess intrinsic micr...
Abstract. We study the statistical mechanics of an infinite one-dimensional classical lattice gas. E...
The lattice gas automata (LGA) technique as an alternative to the partial differential equation (PDE...
Conventional lattice gas automata consist of particles moving discretely on a fixed lattice. While s...
A theory of lattice Boltzmann (LB) models for hydrodynamic simulation is developed upon a novel rela...
In recent years, discrete approaches have been widely used in mathematical modeling of physicochemic...
We model reaction-diffusion systems with reactive lattice gas automata, which possess intrinsic micr...
It has been known since 1986 that it is possible to construct simple lattice-gas cellular automata w...
The goal of this project has been to build on the understanding of the connections between knot inva...
Some of the issues raised by recent work on lattice gas automata are reviewed. © 1991.SCOPUS: ar.jin...
We investigate the space and time behavior of spontaneous thermohydrodynamic fluctuations in a simpl...
In this work two families of cellular automatas (CA) are studied as dynamical systems.The theory of ...
In this work two families of cellular automatas (CA) are studied as dynamical systems.The theory of ...
The entropic pressure in the vicinity of a cubic lattice knot is examined as a model of the entropic...
A simple lattice gas model, a microscopically reversible cellular automaton, is described and shown ...
We model reaction-diffusion systems with reactive lattice gas automata, which possess intrinsic micr...
Abstract. We study the statistical mechanics of an infinite one-dimensional classical lattice gas. E...
The lattice gas automata (LGA) technique as an alternative to the partial differential equation (PDE...
Conventional lattice gas automata consist of particles moving discretely on a fixed lattice. While s...
A theory of lattice Boltzmann (LB) models for hydrodynamic simulation is developed upon a novel rela...
In recent years, discrete approaches have been widely used in mathematical modeling of physicochemic...
We model reaction-diffusion systems with reactive lattice gas automata, which possess intrinsic micr...
It has been known since 1986 that it is possible to construct simple lattice-gas cellular automata w...