Applicability of the square well potential for liquid noble metals has been tested by calculating the liquid structure factor, under the mean spherical model approximation and self-diffusion coefficient, according to the linear trajectory prescription. The good agreement obtained in both the cases suggests that the structure of liquid metals can be represented satisfactorily by a square well model
An accurate determination of transport coefficients in liquids, such as diffusivity, is crucial for ...
In this work, the electron gas energy of some liquid metals and alloys were computed based on statis...
We present several dynamical properties of liquid Li, Rb, and Cs near their melting points. They hav...
The structure factors S k for simple liquid metals are calculated using a model ¯ uid composed of ha...
The theory of the static structure factors of simple liquid metals is presented,and,in particular,th...
The structure factors of several liquid metals have been calculated through the Baxter solution of t...
Applying the solution of the Percus-Yevic equation to a one component hard sphere system and using t...
The analytic interatomic pair potential for simple metals is derived from rst principles using secon...
The square-well (SW) model in the semi-analytical modification of the mean spherical approximation (...
Applying the solution of the Percus-Yevick equation to a one component system and using a screened p...
The structure factor of liquid rare earth metals namely, Nd, Dy, Ho, Er and Lu are evaluated by assu...
The results of calculations for static structure factors, S(q), and shear viscosities for less simpl...
The structure functions of several liquid metals have been calculated using the equation developed b...
Under criticism of the data of atomic radial distribution curves for monatomic liquids, a simple red...
A new formulation for S(k), the structure factor, has been obtained, treating the square-well potent...
An accurate determination of transport coefficients in liquids, such as diffusivity, is crucial for ...
In this work, the electron gas energy of some liquid metals and alloys were computed based on statis...
We present several dynamical properties of liquid Li, Rb, and Cs near their melting points. They hav...
The structure factors S k for simple liquid metals are calculated using a model ¯ uid composed of ha...
The theory of the static structure factors of simple liquid metals is presented,and,in particular,th...
The structure factors of several liquid metals have been calculated through the Baxter solution of t...
Applying the solution of the Percus-Yevic equation to a one component hard sphere system and using t...
The analytic interatomic pair potential for simple metals is derived from rst principles using secon...
The square-well (SW) model in the semi-analytical modification of the mean spherical approximation (...
Applying the solution of the Percus-Yevick equation to a one component system and using a screened p...
The structure factor of liquid rare earth metals namely, Nd, Dy, Ho, Er and Lu are evaluated by assu...
The results of calculations for static structure factors, S(q), and shear viscosities for less simpl...
The structure functions of several liquid metals have been calculated using the equation developed b...
Under criticism of the data of atomic radial distribution curves for monatomic liquids, a simple red...
A new formulation for S(k), the structure factor, has been obtained, treating the square-well potent...
An accurate determination of transport coefficients in liquids, such as diffusivity, is crucial for ...
In this work, the electron gas energy of some liquid metals and alloys were computed based on statis...
We present several dynamical properties of liquid Li, Rb, and Cs near their melting points. They hav...
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