International audienceThe momentum transfer cross-section for ion scattering on charged dust particles is calculated using different models of the interaction potential. The results are applied to estimate the ion drag force for typical conditions used in the experiments with complex (dusty) plasmas. The influence of two factors on the ion-dust collision cross section is discussed. The first is related to the nonlinear screening effects associated with the strong coupling between ions and dust particles. The second factor is the plasma absorption by dust particles. It is shown that the nonlinear screening effects are of importance and affect both the momentum transfer cross-section and the ion drag force. On the other hand, the absorption p...
The potential around a dust particle in a plasma is found using the collisional hydrodynamic equatio...
The ion density and electric potential distribution around a dust particle in a plasma with flowing ...
The ion density and electric potential distribution around a dust particle in a plasma with flowing ...
International audienceThe momentum transfer cross-section for ion scattering on charged dust particl...
The momentum transfer cross-section for ion scattering on charged dust particles is calculated usin...
The momentum transfer cross-section for ion scattering on charged dust particles is calculated usin...
The plasma absorption effects on the ion-dust momentum transfer process are investigated in collisio...
The ion drag force is calculated for dusty plasmas with ion absorption. Influence of strong particle...
\u3cp\u3eThe transport of dust particles through a plasma depends mostly on the ion drag force, the ...
The ion wake effects on the Coulomb drag force are investigated in complex dusty plasmas. It is show...
The plasma absorption effects on the collisions of positively charged dust grains are investigated i...
The ion drag force arising from plasma flow past an embedded spherical grain is calculated self-cons...
The problem of calculating the ion drag force in complex plasmas is considered. It is shown that the...
The potential around a dust particle in a plasma is found using the collisional hydrodynamic equatio...
The potential around a dust particle in a plasma is found using the collisional hydrodynamic equatio...
The potential around a dust particle in a plasma is found using the collisional hydrodynamic equatio...
The ion density and electric potential distribution around a dust particle in a plasma with flowing ...
The ion density and electric potential distribution around a dust particle in a plasma with flowing ...
International audienceThe momentum transfer cross-section for ion scattering on charged dust particl...
The momentum transfer cross-section for ion scattering on charged dust particles is calculated usin...
The momentum transfer cross-section for ion scattering on charged dust particles is calculated usin...
The plasma absorption effects on the ion-dust momentum transfer process are investigated in collisio...
The ion drag force is calculated for dusty plasmas with ion absorption. Influence of strong particle...
\u3cp\u3eThe transport of dust particles through a plasma depends mostly on the ion drag force, the ...
The ion wake effects on the Coulomb drag force are investigated in complex dusty plasmas. It is show...
The plasma absorption effects on the collisions of positively charged dust grains are investigated i...
The ion drag force arising from plasma flow past an embedded spherical grain is calculated self-cons...
The problem of calculating the ion drag force in complex plasmas is considered. It is shown that the...
The potential around a dust particle in a plasma is found using the collisional hydrodynamic equatio...
The potential around a dust particle in a plasma is found using the collisional hydrodynamic equatio...
The potential around a dust particle in a plasma is found using the collisional hydrodynamic equatio...
The ion density and electric potential distribution around a dust particle in a plasma with flowing ...
The ion density and electric potential distribution around a dust particle in a plasma with flowing ...