Following the Golden-Kalman one-component-plasma nonlinear response-function approach, the authors formulate an approximation scheme for the calculation of dynamical ionic polarizabilities in binary-mixture plasmas. Preliminary collective-mode calculations are presented in the weak- and very-strong-coupling regimes
The dynamical response and plasma mode dispersion in strongly coupled two-dimensional Coulomb fluids...
A microscopic theory of the statics and the dynamics of solvation of an ion in a binary dipolar liqu...
We report a molecular dynamics study on the effect of electronic polarization on the structure and s...
The authors generalize the Golden-Kalman one-component-plasma (OCP) nonlinear-response-function appr...
The collective mode spectrum of the magnetized ionic mixture consisting of s components is studied b...
New lengthy Monte Carlo simulations of the energy equation of state of binary ionic mixture fluids i...
We discuss the minimum conditions required to build a consistent picture for the demixing phenomena ...
The magnetohydrodynamical equations for a multi-component magnetized ionic mixture are used to deriv...
By eliminating the short range negative divergence of the Debye-Huuckel pair distribution function, ...
By eliminating the short range negative divergence of the Debye–Hückel pair distribution function, b...
The total charge fluctuation spectrum of ionic mixtures is analyzed on the basis of the solution of ...
The paper reports a mode coupling calculation of the memory function for the dynamics of long-wave-l...
International audienceThe collective modes of a familiar two-dimensional one-component-plasma with t...
This paper proposes a general semi-empirical expression for the correlation function g(y) in the one...
A microscopic theory is described for the ion solvation dynamics in binary dipolar liquids. The theo...
The dynamical response and plasma mode dispersion in strongly coupled two-dimensional Coulomb fluids...
A microscopic theory of the statics and the dynamics of solvation of an ion in a binary dipolar liqu...
We report a molecular dynamics study on the effect of electronic polarization on the structure and s...
The authors generalize the Golden-Kalman one-component-plasma (OCP) nonlinear-response-function appr...
The collective mode spectrum of the magnetized ionic mixture consisting of s components is studied b...
New lengthy Monte Carlo simulations of the energy equation of state of binary ionic mixture fluids i...
We discuss the minimum conditions required to build a consistent picture for the demixing phenomena ...
The magnetohydrodynamical equations for a multi-component magnetized ionic mixture are used to deriv...
By eliminating the short range negative divergence of the Debye-Huuckel pair distribution function, ...
By eliminating the short range negative divergence of the Debye–Hückel pair distribution function, b...
The total charge fluctuation spectrum of ionic mixtures is analyzed on the basis of the solution of ...
The paper reports a mode coupling calculation of the memory function for the dynamics of long-wave-l...
International audienceThe collective modes of a familiar two-dimensional one-component-plasma with t...
This paper proposes a general semi-empirical expression for the correlation function g(y) in the one...
A microscopic theory is described for the ion solvation dynamics in binary dipolar liquids. The theo...
The dynamical response and plasma mode dispersion in strongly coupled two-dimensional Coulomb fluids...
A microscopic theory of the statics and the dynamics of solvation of an ion in a binary dipolar liqu...
We report a molecular dynamics study on the effect of electronic polarization on the structure and s...
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