R. Brito and M.H. Ernst. Lattice gases in slab geometries. Physical Review A, 44(12):8384-- 8687, 1991. Home/Search Document Not in Database Summary APS Related Articles Check |
This paper is cited in the following contexts:
Lattice-Gas Dynamics, Volume I Viscous Fluids - Yepez (1996) (6 citations) (Correct)
.... hydrodynamics and thermohydrodynamics [26, 34, 43, 2, 67] immiscible fluids [75, 25, 46, 45] multiphase systems [21, 4, 3, 5, 103, 44, 77, 99, 98, 78] reaction di#usion systems [31, 57, 53] magnetohydrodynamics [23, 24, 27, 66] flow through porous media [74, 28] renormalized kinetic theory [55, 17, 50, 18, 92, 70, 12], and quantum dynamics [83, 84, 104] A good review of the lattice gas subject, with particular emphasis on interfaces, phase transitions, and multiphase flow, has recently been presented by Rothman and Zaleski [76] Additionally, a fairly comprehensive bibliography of the subject has been ....
....to the system s behavior. Lattice gas simulations can verify theoretical predictions beyond the Boltzmann mean field approximation of 9 uncorrelated collisions: the phenomenon of long time tails in the velocity autocorrelation function [1, 72, 36] has recently been observed in lattice gases [55, 17, 18]. Fourthly, like their cellular automata cousins, lattice gases are local. The combination of simplicity and locality of lattice gas rules allows in principle nearly ideal logic density. The highest logic density that one could physically imagine would be the atomic density of solids. There ....
R. Brito and M.H. Ernst. Lattice gases in slab geometries. Physical Review A, 44(12):8384--8687, 1991.
An Overview of Lattice-Gas Dynamics - Yepez (1997) (Correct)
....to the system s behavior. Lattice gas simulations have verified theoretical predictions beyond the Boltzmann mean field approximation of uncorrelated collisions: the phenomenon of longtime tails in the velocity autocorrelation function [2, 52, 26] has recently been observed in lattice gases [40, 16, 17]. Like their cellular automata cousins, lattice gases are local. The combination of simplicity and locality of lattice gas rules allows in principle nearly ideal logic density. Earlier in the introduction I tried to extrapolate what would be the highest logic density that one would expect two ....
R. Brito and M.H. Ernst. Lattice gases in slab geometries. Physical Review A, 44(12):8384--8687, 1991.
Lattice-Gas Automata Fluids on Parallel Supercomputers - Jeffrey Yepez, Guy P.. (1993) (3 citations) (Correct)
....essential to the system s behavior. Latticegas simulations can verify theoretical predictions beyond the Boltzmann meanfield approximation of uncorrelated collisions: the phenomenon of long time tails in the velocity autocorrelation function [45, 46, 47] has recently been observed in lattice gases [48, 49, 50]. 4 Lattice Gas Automata We first define, in the usual way, what a lattice gas cellular automaton is. Then we analytically treat the lattice gas in the Boltzmann limit to show that one may use strictly deterministic local rules to obtain the correct macroscopic limit. We show in particular that ....
R. Brito and M.H. Ernst. Lattice gases in slab geometries. Physical Review A, 44(12):8384--8687, 1991.
The Classical Lattice-Gas Method - Yepez (1999) (Correct)
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R. Brito and M.H. Ernst. Lattice gases in slab geometries. Physical Review A, 44(12):8384-- 8687, 1991.
Lattice-Gas Dynamics, Volume I - Viscous Fluids - Yepez (1995) (6 citations) (Correct)
No context found.
R. Brito and M.H. Ernst. Lattice gases in slab geometries. Physical Review A, 44(12):8384--8687, 1991.
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