Using the somewhat inaccessible result of the general theory, we deduce the explicit expressions for the coupling coefficients of a cold magnetized two-component plasma.
We initially input turbulent velocity into the magnetized plate-shaped cloud which is in hydrostatic equilibrium between thermal pressure and self-gravity.
We derive the dielectric tensor for multicomponent magnetized dusty plasmas, including the effect of capture of plasma electrons and ions by the dust particles.
As will be seen below, this has profound effects on the nonlinear dynamics of magnetized dusty plasmas.
The equations are then used to investigate decay and modulational instabilities in magnetized dusty plasmas.
The transitions and the self-gravitational effects on the surface dust-ionacoustic mode are investigated in semi-bounded magnetized dusty plasmas.
These results provide useful information on the self-gravitational effects and magnetic field effects on the surface dust-ion-acoustic mode in semi-bounded self-gravitating magnetized dusty plasmas.
The electrons and ions are magnetized, while the dust is unmagnetized.