Add to ORKGThe presence of a small amount of relatively cold electrons in an otherwise hot plasma reduces the ion sound speed in the medium and hence reduces the growth rate of the drift dissipative ion acoustic mode in an inhomogeneous weakly ionized plasma. This is expected to improve the confinement time in certain magnetic confinement schemes. The propagation of a small but finite amplitude mode in the presence of ion viscosity is also investigated by using the reductive perturbation method. It is shown that, when the damping due to ion viscosity is stronger than the growth due to collisions, there exists a stationary shock solution
We investigate the low-frequency wave mode associated with heavy particles and its instability in a ...
It is found that the inclusion of the electron inertia effect (parallel to an external magnetic fiel...
The properties of gas acoustic and ion acoustic modes are investigated in a collisional, weakly ioni...
The influence of temperature perturbations on the propagation and stability of low frequency waves i...
The properties of the electron current/drift-driven ion acoustic mode propagating at an angle with r...
The friction in multi-component plasmas is discussed, and its effects on ion acoustic (IA) and drift...
Abstract-The influence of temperature perturbations on the propagation and stability of low fre-quen...
The properties of a weakly ionized plasma with a high concentration of flowing neutrals are discusse...
A fluid analysis is presented of the ion sound mode in a weakly ionized collisional plasma. The ion-...
In the presence of an electron drift relative to ions, the ion acoustic wave is subject to the kinet...
It is shown that, if one takes account of the non-stationary nature of the background equilibrium, t...
The effects of the ion temperature are discussed in a two-ion electron plasma and for a model applic...
A fluid theory of collisional electrostatic drift waves in a plasma slab with magnetic shear is pres...
The effects of friction on the ion acoustic (IA) wave in fully and partially ionized plasmas are stu...
The dispersion curves, the growth and damping rates of the ion acoustic surface waves of the semi-b...
We investigate the low-frequency wave mode associated with heavy particles and its instability in a ...
It is found that the inclusion of the electron inertia effect (parallel to an external magnetic fiel...
The properties of gas acoustic and ion acoustic modes are investigated in a collisional, weakly ioni...
The influence of temperature perturbations on the propagation and stability of low frequency waves i...
The properties of the electron current/drift-driven ion acoustic mode propagating at an angle with r...
The friction in multi-component plasmas is discussed, and its effects on ion acoustic (IA) and drift...
Abstract-The influence of temperature perturbations on the propagation and stability of low fre-quen...
The properties of a weakly ionized plasma with a high concentration of flowing neutrals are discusse...
A fluid analysis is presented of the ion sound mode in a weakly ionized collisional plasma. The ion-...
In the presence of an electron drift relative to ions, the ion acoustic wave is subject to the kinet...
It is shown that, if one takes account of the non-stationary nature of the background equilibrium, t...
The effects of the ion temperature are discussed in a two-ion electron plasma and for a model applic...
A fluid theory of collisional electrostatic drift waves in a plasma slab with magnetic shear is pres...
The effects of friction on the ion acoustic (IA) wave in fully and partially ionized plasmas are stu...
The dispersion curves, the growth and damping rates of the ion acoustic surface waves of the semi-b...
We investigate the low-frequency wave mode associated with heavy particles and its instability in a ...
It is found that the inclusion of the electron inertia effect (parallel to an external magnetic fiel...
The properties of gas acoustic and ion acoustic modes are investigated in a collisional, weakly ioni...