Add to ORKGInternational audienceThe autocorrelation function for the velocity and for the electric microfield of an impurity ion in a Two Ionic Component Plasma (TICP) is considered. A simple model is constructed for this purpose that preserves the exact short time dynamics and the long time global constraint of a given self-diffusion coefficient. The memory function and then the collision effects associated with the correlation function for the self-diffusion are expressed in terms of an effective two body interaction via a screened effective potential. The basic approximation used in our approach is the "disconnected" one that refers to the collision operator. A comparison of the prediction of this model for the self-diffusion and for the autocorre...
The one component plasma (OCP) is an idealized model of strongly coupled plasmas that exist in natur...
This paper proposes a general semi-empirical expression for the correlation function g(y) in the one...
Molecular dynamics simulations of strongly coupled, classical electronic bilayers, interacting throu...
The autocorrelation function for the velocity and for the electric microfield of an impurity ion in ...
International audienceThe autocorrelation function for the electric field at an impurity ion in a pl...
The semiclassical dynamics of a charged particle moving in a two-component plasma is considered usin...
We use molecular dynamics computer simulations to investigate the fluctuations of the electric micro...
Abstract. We use molecular dynamics computer simulations to investigate the fluctuations of the elec...
The electric microfield distribution at charged particles is studied for two-component electron-ion ...
We present Molecular Dynamics computations of the velocity autocorrelation function and the self-dif...
This work examines the exact hydrodynamic equations describing fluctuations in two component plasmas...
International audienceThe dynamic properties of ion-electron two-component plasmas (TCP) are studied...
Submitted to Phys. Rev. EInternational audienceThe dynamics of electrons in the presence of a positi...
The self-diffusion, shear viscosity and thermal conductivity coefficients of a strongly coupled one-...
We present a study of the collisional relaxation of ion velocities in a strongly coupled, ultracold ...
The one component plasma (OCP) is an idealized model of strongly coupled plasmas that exist in natur...
This paper proposes a general semi-empirical expression for the correlation function g(y) in the one...
Molecular dynamics simulations of strongly coupled, classical electronic bilayers, interacting throu...
The autocorrelation function for the velocity and for the electric microfield of an impurity ion in ...
International audienceThe autocorrelation function for the electric field at an impurity ion in a pl...
The semiclassical dynamics of a charged particle moving in a two-component plasma is considered usin...
We use molecular dynamics computer simulations to investigate the fluctuations of the electric micro...
Abstract. We use molecular dynamics computer simulations to investigate the fluctuations of the elec...
The electric microfield distribution at charged particles is studied for two-component electron-ion ...
We present Molecular Dynamics computations of the velocity autocorrelation function and the self-dif...
This work examines the exact hydrodynamic equations describing fluctuations in two component plasmas...
International audienceThe dynamic properties of ion-electron two-component plasmas (TCP) are studied...
Submitted to Phys. Rev. EInternational audienceThe dynamics of electrons in the presence of a positi...
The self-diffusion, shear viscosity and thermal conductivity coefficients of a strongly coupled one-...
We present a study of the collisional relaxation of ion velocities in a strongly coupled, ultracold ...
The one component plasma (OCP) is an idealized model of strongly coupled plasmas that exist in natur...
This paper proposes a general semi-empirical expression for the correlation function g(y) in the one...
Molecular dynamics simulations of strongly coupled, classical electronic bilayers, interacting throu...