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A simple equation of state is derived for a hard-core lattice gas of side length λ, and compared to the results of Monte Carlo simulations. In the disordered fluid phase, the equation is found to work very well for a two-dimensional lattice gas of hard squares and reasonably well for the three-dimensional gas of hard cubes
Considerable progress has been achieved in the prediction of the fluid phase properties using equati...
Monte Carlo simulations are used to study lattice gases of particles with extended hard cores on a t...
Huovinen P, Petreczky P, Schmidt C. Equation of state at non-zero baryon density based on lattice QC...
A simple equation of state is derived for a hard-core lattice gas of side length λ, and compared to ...
We present a volume-explicit equation of state for hard spheres and their mixtures that performs wel...
The thermodynamic properties of lattice gases of hard-square molecules on a two-dimensional square l...
A simple hard-sphere equation of state is proposed. This hard-sphere equation is a ratio of second-o...
The existence of a phase transition in a three-dimensional lattice gas of hard molecules is investig...
A new equation of state based on the concept of perturbed hard chain theory and the hard-convex body...
[[abstract]]A new derivation of the virial expansion of the equation of state for a classical gas is...
The theoretical perturbation equation of state developed by McQuarrie and Katz is considered. The eq...
A simplified thermodynamic perturbation theory-dimer framework is used to derive an equation of stat...
The three stable states of matter and the corresponding phase transitions were obtained with a singl...
A new equation of state for gases at high densities and temperatures is formulated. This is based on...
New molecular simulation data are reported for the compressibility factors of hard spheres covering ...
Considerable progress has been achieved in the prediction of the fluid phase properties using equati...
Monte Carlo simulations are used to study lattice gases of particles with extended hard cores on a t...
Huovinen P, Petreczky P, Schmidt C. Equation of state at non-zero baryon density based on lattice QC...
A simple equation of state is derived for a hard-core lattice gas of side length λ, and compared to ...
We present a volume-explicit equation of state for hard spheres and their mixtures that performs wel...
The thermodynamic properties of lattice gases of hard-square molecules on a two-dimensional square l...
A simple hard-sphere equation of state is proposed. This hard-sphere equation is a ratio of second-o...
The existence of a phase transition in a three-dimensional lattice gas of hard molecules is investig...
A new equation of state based on the concept of perturbed hard chain theory and the hard-convex body...
[[abstract]]A new derivation of the virial expansion of the equation of state for a classical gas is...
The theoretical perturbation equation of state developed by McQuarrie and Katz is considered. The eq...
A simplified thermodynamic perturbation theory-dimer framework is used to derive an equation of stat...
The three stable states of matter and the corresponding phase transitions were obtained with a singl...
A new equation of state for gases at high densities and temperatures is formulated. This is based on...
New molecular simulation data are reported for the compressibility factors of hard spheres covering ...
Considerable progress has been achieved in the prediction of the fluid phase properties using equati...
Monte Carlo simulations are used to study lattice gases of particles with extended hard cores on a t...
Huovinen P, Petreczky P, Schmidt C. Equation of state at non-zero baryon density based on lattice QC...
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