Title :
Propagation in a warm collisional magnetoplasma enclosed in a conducting cylinder
Author :
Basu, Jayanta ; Biswas, Snehalata
Author_Institution :
Saha Inst. of Nucl. Phys., Calcutta, India
fDate :
8/1/1991 12:00:00 AM
Abstract :
A study is presented of the propagation of electron plasma waves in a warm collisional plasma filling a conducting cylinder and magnetized strongly in the axial direction, the plasma parameters being taken to be such that the electron-ion collision is the dominant damping process. The attenuation and phase constants are derived in suitably normalized form by using the electrodynamic method. The dispersion and attenuation characteristics for propagation in the lowest order mode in a hydrogen plasma are obtained for various values of the normalized plasma radius αωpe/c, the electron temperature and electron density being held constant, and the characteristics are compared with those given by the usual quasi-static approximation, which is found to be valid only if αωpe /c≲1, where α is the plasma radius, ω pe is the plasma frequency, and c is the velocity of light in free space. The effect of the plasma frequency on the characteristics is investigated
Keywords :
plasma collision processes; plasma temperature; plasma waves; H plasma; attenuation; axial direction; conducting cylinder; damping process; electrodynamic method; electron plasma waves; electron-ion collision; lowest order mode; magnetisation; normalized plasma radius; phase constants; plasma frequency; propagation; quasi-static approximation; velocity of light in free space; warm collisional magnetoplasma; Attenuation; Damping; Electrodynamics; Electrons; Filling; Frequency; Plasma density; Plasma properties; Plasma temperature; Plasma waves;
Journal_Title :
Plasma Science, IEEE Transactions on
