Using transfer matrix and finite-size scaling methods, we study the thermodynamic behavior of a lattice gas with two kinds of particles on the square lattice. Only excluded volume interactions are considered, so that the model is athermal. Large particles exclude the site they occupy and its four first neighbors, while small particles exclude only their site. Two thermodynamic phases are found: a disordered phase where large particles occupy both sublattices with the same probability and an ordered phase where one of the two sublattices is preferentially occupied by them. The transition between these phases is continuous at small concentrations of the small particles and discontinuous at larger concentrations, both transitions are separated...
Water and other tetrahedral liquids are characterized by a density anomaly whose origin is not well ...
doi:10.1088/0953-8984/16/49/001 A two dimensional lattice gas model with a ‘core-softened ’ potentia...
Hard core lattice gas models are minimal models to study entropy driven phase transitions. In the $k...
We investigate a hard-square lattice gas on the square lattice by means of transfer-matrix and Monte...
Athermal lattice gases of particles with first neighbor exclusion have been studied for a long time ...
Monte Carlo simulations are used to study lattice gases of particles with extended hard cores on a t...
We study lattice gas systems on the honeycomb lattice where particles exclude neighboring sites up t...
The thermodynamic properties of lattice gases of hard-square molecules on a two-dimensional square l...
We investigate the relation between thermodynamic and dynamic properties of an associating lattice g...
Using Monte Carlo simulations we investigate some new aspects of the phase diagram and the behavior ...
Hard-core lattice-gas models are minimal models to study entropy-driven phase transitions. In the k-...
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...
This article offers a detailed analysis of interacting particles in the two-dimensional square array...
We investigate the collective behavior of an Ising lattice gas, driven to non-equilibrium steady sta...
Water and other tetrahedral liquids are characterized by a density anomaly whose origin is not well ...
doi:10.1088/0953-8984/16/49/001 A two dimensional lattice gas model with a ‘core-softened ’ potentia...
Hard core lattice gas models are minimal models to study entropy driven phase transitions. In the $k...
We investigate a hard-square lattice gas on the square lattice by means of transfer-matrix and Monte...
Athermal lattice gases of particles with first neighbor exclusion have been studied for a long time ...
Monte Carlo simulations are used to study lattice gases of particles with extended hard cores on a t...
We study lattice gas systems on the honeycomb lattice where particles exclude neighboring sites up t...
The thermodynamic properties of lattice gases of hard-square molecules on a two-dimensional square l...
We investigate the relation between thermodynamic and dynamic properties of an associating lattice g...
Using Monte Carlo simulations we investigate some new aspects of the phase diagram and the behavior ...
Hard-core lattice-gas models are minimal models to study entropy-driven phase transitions. In the k-...
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...
This article offers a detailed analysis of interacting particles in the two-dimensional square array...
We investigate the collective behavior of an Ising lattice gas, driven to non-equilibrium steady sta...
Water and other tetrahedral liquids are characterized by a density anomaly whose origin is not well ...
doi:10.1088/0953-8984/16/49/001 A two dimensional lattice gas model with a ‘core-softened ’ potentia...
Hard core lattice gas models are minimal models to study entropy driven phase transitions. In the $k...