Add to ORKGIn this paper, we examine the effect of the temporal fluctuation current correlation in the surface diffusion process in a triangular lattice, in the framework of the lattice gas model. Our calculations are per found in small circular surfaces equivalent to the probe areas in the scanning microscopy experiments. We have found that the correlation function, in the non- interacting case, follows the law Öp . In the presence of repulsive interactions between mobile particles, it behaves like Öp exp(8γp). We have also calculated the collective diffusion coefficient by the linear response theory and by the characteristic time method, which reflect clearly the order-disorder effect on the diffu...
We investigate the diffusion of particles on heterogeneous lattices with two kinds of nonequivalent ...
We study the influence of nonequilibrium conditions on the collective diffusion of interacting parti...
We model reaction-diffusion systems with reactive lattice gas automata, which possess intrinsic micr...
The collective (or chemical) diffusion in interacting repulsive lattice gases is studied both in tri...
We have studied the lattice gas model subject to nearest neighbour repulsi...
In this work, we investigate the diffusion process by using a mean field l...
Diffusion is studied in a two-dimensional gas of triangular symmetry with repulsive interactions. Th...
The combined effects of correlations and lattice gas restriction on the collective diffusion behavio...
We study the fluctuations of the integrated density current across the origin up to time $T$ in a la...
We investigate the influence of different diffusion mechanisms on the finite-size scaling behavior o...
A general theory for collective diffusion in interacting lattice-gas models is presented. The theory...
In the present paper, the influence of both pairwise and three-particle interactions on the mobility...
We analyze diffusion of particles on a two-dimensional square lattice. Each lattice site contains an...
To describe growth kinetics of adsorbates on surfaces, knowledge of diffusion coefficients of atoms ...
We investigate random walk of a particle constrained on cells, where cells behave as a lattice gas o...
We investigate the diffusion of particles on heterogeneous lattices with two kinds of nonequivalent ...
We study the influence of nonequilibrium conditions on the collective diffusion of interacting parti...
We model reaction-diffusion systems with reactive lattice gas automata, which possess intrinsic micr...
The collective (or chemical) diffusion in interacting repulsive lattice gases is studied both in tri...
We have studied the lattice gas model subject to nearest neighbour repulsi...
In this work, we investigate the diffusion process by using a mean field l...
Diffusion is studied in a two-dimensional gas of triangular symmetry with repulsive interactions. Th...
The combined effects of correlations and lattice gas restriction on the collective diffusion behavio...
We study the fluctuations of the integrated density current across the origin up to time $T$ in a la...
We investigate the influence of different diffusion mechanisms on the finite-size scaling behavior o...
A general theory for collective diffusion in interacting lattice-gas models is presented. The theory...
In the present paper, the influence of both pairwise and three-particle interactions on the mobility...
We analyze diffusion of particles on a two-dimensional square lattice. Each lattice site contains an...
To describe growth kinetics of adsorbates on surfaces, knowledge of diffusion coefficients of atoms ...
We investigate random walk of a particle constrained on cells, where cells behave as a lattice gas o...
We investigate the diffusion of particles on heterogeneous lattices with two kinds of nonequivalent ...
We study the influence of nonequilibrium conditions on the collective diffusion of interacting parti...
We model reaction-diffusion systems with reactive lattice gas automata, which possess intrinsic micr...