Add to ORKGThe influence of a uniform driving force on tracer diffusion is investigated for a one-dimensional lattice gas where particles jump stochastically to unoccupied neighboring sites. A new, simple calculation is presented for the diffusion coefficient of a tracer particle with respect to its average drift, obtained recently by rigorous methods by De Masi and Ferrari. A theoretical expression describing the tracer particle mean square displacement approximately for all times is derived and found to be in excellent agreement with the results of Monte Carlo simulations
We investigate random walk of a particle constrained on cells, where cells behave as a lattice gas o...
The combined effects of correlations and lattice gas restriction on the collective diffusion behavio...
We study by extensive numerical simulations the dynamics of a hard-core tracer particle (TP) in pres...
The influence of a uniform driving force on tracer diffusion is investigated for a one-dimensional l...
The influence of a uniform driving force on tracer diffusion is investigated for a one-dimensional l...
The dynamical process of the diffusion of tagged particles in a one-dimensional concentrated lattice...
A simple theory is developed for hopping diffusion in hard-core lattice gases. Its predictions for t...
Tagged-particle diffusion is investigated on a system of two coupled linear chains with an arbitrary...
By use of a lattice random walk algorithm we model diffusion in a many-body system and study the mea...
International audienceWe summarise different results on the diffusion of a tracer particle in lattic...
Tracer diffusion and fluid transport are studied in a model for a geomarine system in which fluid co...
We study the diffusion of a tracer particle driven out of equilibrium by an external force and trave...
A Monte Carlo simulation is presented for the tracers\u27 diffusion of an interacting lattice gas mo...
An approximate theory is developed for tracer diffusion in rectangular lattice gas models with aniso...
In this study, inspired by the work of Nakazato and Kitahara (1980 Prog. Theor. Phys. 64 2261), we c...
We investigate random walk of a particle constrained on cells, where cells behave as a lattice gas o...
The combined effects of correlations and lattice gas restriction on the collective diffusion behavio...
We study by extensive numerical simulations the dynamics of a hard-core tracer particle (TP) in pres...
The influence of a uniform driving force on tracer diffusion is investigated for a one-dimensional l...
The influence of a uniform driving force on tracer diffusion is investigated for a one-dimensional l...
The dynamical process of the diffusion of tagged particles in a one-dimensional concentrated lattice...
A simple theory is developed for hopping diffusion in hard-core lattice gases. Its predictions for t...
Tagged-particle diffusion is investigated on a system of two coupled linear chains with an arbitrary...
By use of a lattice random walk algorithm we model diffusion in a many-body system and study the mea...
International audienceWe summarise different results on the diffusion of a tracer particle in lattic...
Tracer diffusion and fluid transport are studied in a model for a geomarine system in which fluid co...
We study the diffusion of a tracer particle driven out of equilibrium by an external force and trave...
A Monte Carlo simulation is presented for the tracers\u27 diffusion of an interacting lattice gas mo...
An approximate theory is developed for tracer diffusion in rectangular lattice gas models with aniso...
In this study, inspired by the work of Nakazato and Kitahara (1980 Prog. Theor. Phys. 64 2261), we c...
We investigate random walk of a particle constrained on cells, where cells behave as a lattice gas o...
The combined effects of correlations and lattice gas restriction on the collective diffusion behavio...
We study by extensive numerical simulations the dynamics of a hard-core tracer particle (TP) in pres...