Add to ORKGThe dielectric tensor for a multicomponent magnetized dusty plasma, including the effect of capture of plasma electrons and ions by the dust particles, is rewritten in order to provide expressions more suitable for applications. We use this tensor to study the spatial absorption of a magnetosonic wave, including effects up to second order in the Larmor radius. We analyse the absorption of the wave due to the presence of dust particles with variable charge and the modification of this absorption due to finite-Larmorradius effects
We utilize a kinetic approach to the problem of wave propagation in dusty plasmas, taking into accou...
We investigate the dispersion relation for a magnetized plasma with weak magnetic field gradients pe...
We investigate the dispersion relation for a magnetized plasma with weak magnetic field gradients pe...
The dielectric tensor for a multicomponent magnetized dusty plasma, including the effect of capture ...
The dielectric tensor for a multicomponent magnetized dusty plasma, including the effect of capture ...
We present results obtained in recent years for wave propagation in a magnetized dusty plasma, inclu...
We present results obtained in recent years for wave propagation in a magnetized dusty plasma, inclu...
We present results obtained in recent years for wave propagation in a magnetized dusty plasma, inclu...
We derive the dielectric tensor for multicomponent magnetized dusty plasmas, including the effect of...
We derive the dielectric tensor for multicomponent magnetized dusty plasmas, including the effect of...
A kinetic approach to the problem of wave propagation in dusty plasmas, which takes into account the...
A kinetic approach to the problem of wave propagation in dusty plasmas, which takes into account the...
We utilize a kinetic approach to the problem of wave propagation in dusty plasmas, taking into accou...
We utilize a kinetic approach to the problem of wave propagation in dusty plasmas, taking into accou...
We utilize a kinetic approach to the problem of wave propagation in dusty plasmas, taking into accou...
We utilize a kinetic approach to the problem of wave propagation in dusty plasmas, taking into accou...
We investigate the dispersion relation for a magnetized plasma with weak magnetic field gradients pe...
We investigate the dispersion relation for a magnetized plasma with weak magnetic field gradients pe...
The dielectric tensor for a multicomponent magnetized dusty plasma, including the effect of capture ...
The dielectric tensor for a multicomponent magnetized dusty plasma, including the effect of capture ...
We present results obtained in recent years for wave propagation in a magnetized dusty plasma, inclu...
We present results obtained in recent years for wave propagation in a magnetized dusty plasma, inclu...
We present results obtained in recent years for wave propagation in a magnetized dusty plasma, inclu...
We derive the dielectric tensor for multicomponent magnetized dusty plasmas, including the effect of...
We derive the dielectric tensor for multicomponent magnetized dusty plasmas, including the effect of...
A kinetic approach to the problem of wave propagation in dusty plasmas, which takes into account the...
A kinetic approach to the problem of wave propagation in dusty plasmas, which takes into account the...
We utilize a kinetic approach to the problem of wave propagation in dusty plasmas, taking into accou...
We utilize a kinetic approach to the problem of wave propagation in dusty plasmas, taking into accou...
We utilize a kinetic approach to the problem of wave propagation in dusty plasmas, taking into accou...
We utilize a kinetic approach to the problem of wave propagation in dusty plasmas, taking into accou...
We investigate the dispersion relation for a magnetized plasma with weak magnetic field gradients pe...
We investigate the dispersion relation for a magnetized plasma with weak magnetic field gradients pe...