Add to ORKGNew lengthy Monte Carlo simulations of the energy equation of state of binary ionic mixture fluids in a uniform background show that deviations from the linear mixing rule are small, positive, and nearly constant as a function of {Gamma}. Deviations from linear mixing for the Helmholtz free energy are positive and behave as ln{Gamma}. Quantitative results are obtained form the correction to the thermonuclear reaction rate
The total charge fluctuation spectrum of ionic mixtures is analyzed on the basis of the solution of ...
We discuss the minimum conditions required to build a consistent picture for the demixing phenomena ...
The ion sphere model introduced long ago by Salpeter is placed in a rigorous theoretical setting. Th...
Numerical experiments using the Monte Carlo method have led to systematic and accurate results for t...
The authors generalize the Golden-Kalman one-component-plasma (OCP) nonlinear-response-function appr...
A laser-driven experiment investigating electron-ion equilibration in strongly coupled plasma was pe...
Excess internal energies of binary-ionic mixture (BIM) plasmas containing small concentrations of la...
Following the Golden-Kalman one-component-plasma nonlinear response-function approach, the authors f...
Equations of state for dense binary-ionic mixture (BIM) plasmas with charge ratios RZ4.5 are evaluat...
International audienceAn accurate equation of state of the one component plasma is obtained in the l...
By eliminating the short range negative divergence of the Debye-Huuckel pair distribution function, ...
We describe a kinetic Monte Carlo molecular simulation procedure to calculate the Helmholtz free ene...
By eliminating the short range negative divergence of the Debye–Hückel pair distribution function, b...
An attempt is made to simulate non-equilibrium strongly coupled plasmas. Monte-Carlo method is used ...
Recent Monte Carlo calculations from Paris and from Livermore for dense one and two component plasma...
The total charge fluctuation spectrum of ionic mixtures is analyzed on the basis of the solution of ...
We discuss the minimum conditions required to build a consistent picture for the demixing phenomena ...
The ion sphere model introduced long ago by Salpeter is placed in a rigorous theoretical setting. Th...
Numerical experiments using the Monte Carlo method have led to systematic and accurate results for t...
The authors generalize the Golden-Kalman one-component-plasma (OCP) nonlinear-response-function appr...
A laser-driven experiment investigating electron-ion equilibration in strongly coupled plasma was pe...
Excess internal energies of binary-ionic mixture (BIM) plasmas containing small concentrations of la...
Following the Golden-Kalman one-component-plasma nonlinear response-function approach, the authors f...
Equations of state for dense binary-ionic mixture (BIM) plasmas with charge ratios RZ4.5 are evaluat...
International audienceAn accurate equation of state of the one component plasma is obtained in the l...
By eliminating the short range negative divergence of the Debye-Huuckel pair distribution function, ...
We describe a kinetic Monte Carlo molecular simulation procedure to calculate the Helmholtz free ene...
By eliminating the short range negative divergence of the Debye–Hückel pair distribution function, b...
An attempt is made to simulate non-equilibrium strongly coupled plasmas. Monte-Carlo method is used ...
Recent Monte Carlo calculations from Paris and from Livermore for dense one and two component plasma...
The total charge fluctuation spectrum of ionic mixtures is analyzed on the basis of the solution of ...
We discuss the minimum conditions required to build a consistent picture for the demixing phenomena ...
The ion sphere model introduced long ago by Salpeter is placed in a rigorous theoretical setting. Th...