Add to ORKGA method is elaborated for constructing an effective field theory Hamiltonian of the Landau–Ginzburg– Wilson type for off-lattice models of binary fluids. We show that all coefficients of the effective Hamiltonian for a symmetric binary fluid can be expressed in terms of some known characteristics of the model hard-sphere fluid, namely, compressibility and its derivatives with respect to density. Application of the effective Hamiltonian is demonstrated by an example of determining the curve of critical layering points in the mean-field approximation. This curve agrees well with numerical experiment results for symmetric binary fluids. 1
The studies which are presented here are computer simulations of fluid phenomena based on 2D lattice...
We show in this paper that microscopic theoretical approaches can be applied with confidence for the...
We study the link between the density functional (DF) formalism and the capillary wave theory (CWT) ...
A field-theoretical approach to the restricted primitive model of charged hard spheres is proposed. ...
We investigate the connection between the theory of complete scaling and a field-theoretic (FT) trea...
The asymptotic and preasymptotic critical behavior in fluids, mixtures, and uniaxial magnets is beli...
The liquid–gas phase transition for homogeneous symmetric nuclear matter is studied in the mean-fiel...
The density series of the non-interacting hard-square lattice gas model are reanalyzed by the ratio,...
The hierarchical reference theory of fluids (HRT) is applied to the study of the phase diagram of bi...
The density series of the non-interacting hard-square lattice gas model are reanalyzed by the ratio,...
The hierarchical reference theory of fluids (HRT) combines a first-principles description of the sys...
By integrating out the degrees of freedom of the small spheres in a binary mixture of large and smal...
Abstract. Exploiting the mapping between a binary mixture and the Ising model we have analyzed the c...
Integral equation theory calculations within the mean spherical approximation (MSA) and grand canoni...
7 pagesInternational audienceAn external force dynamically drives an isolated mean-field Hamiltonian...
The studies which are presented here are computer simulations of fluid phenomena based on 2D lattice...
We show in this paper that microscopic theoretical approaches can be applied with confidence for the...
We study the link between the density functional (DF) formalism and the capillary wave theory (CWT) ...
A field-theoretical approach to the restricted primitive model of charged hard spheres is proposed. ...
We investigate the connection between the theory of complete scaling and a field-theoretic (FT) trea...
The asymptotic and preasymptotic critical behavior in fluids, mixtures, and uniaxial magnets is beli...
The liquid–gas phase transition for homogeneous symmetric nuclear matter is studied in the mean-fiel...
The density series of the non-interacting hard-square lattice gas model are reanalyzed by the ratio,...
The hierarchical reference theory of fluids (HRT) is applied to the study of the phase diagram of bi...
The density series of the non-interacting hard-square lattice gas model are reanalyzed by the ratio,...
The hierarchical reference theory of fluids (HRT) combines a first-principles description of the sys...
By integrating out the degrees of freedom of the small spheres in a binary mixture of large and smal...
Abstract. Exploiting the mapping between a binary mixture and the Ising model we have analyzed the c...
Integral equation theory calculations within the mean spherical approximation (MSA) and grand canoni...
7 pagesInternational audienceAn external force dynamically drives an isolated mean-field Hamiltonian...
The studies which are presented here are computer simulations of fluid phenomena based on 2D lattice...
We show in this paper that microscopic theoretical approaches can be applied with confidence for the...
We study the link between the density functional (DF) formalism and the capillary wave theory (CWT) ...