Wave excitation by REB in a waveguide filled with warm, magnetized plasma

Author

Khalil, Sh M. ; El-Shorbagy, Kh H. ; El-Siragy, E.N.

Author_Institution

Dept. of Plasma Phys. & Nucl. Fusion, Atomic Energy Authority, Cairo, Egypt

fYear

1999

fDate

23-25 Feb 1999

Abstract

An important application of a relativistic electron beam (REB) is investigated, i.e., minimizing the energy losses in a waveguide filled with a warm, magnetized plasma. An analytical calculation is performed to find the plasma dielectric constant, which leads one to apply the boundary conditions at the plasma conductor interface. The dispersion equations which describes the electromagnetic waves, hence their damping rate in the waveguide, are derived. The necessary condition for the field stability and the amplification coefficient of these waves are obtained. The electron beam is found to play a crucial role in the field stability and in controlling the field attenuation in the waveguide

Keywords

dispersive media; electromagnetic fields; magnetisation; permittivity; plasma electromagnetic wave propagation; plasma filled waveguides; relativistic electron beams; waveguide theory; REB; amplification coefficient; boundary conditions; damping rate; dispersion equations; dispersive medium; electromagnetic waves; energy losses minimization; field attenuation control; field stability; necessary condition; plasma conductor interface; plasma dielectric constant; relativistic electron beam; warm magnetized plasma filled waveguide; wave excitation; Boundary conditions; Dielectric constant; Electromagnetic waveguides; Electron beams; Energy loss; Magnetic analysis; Performance analysis; Plasma applications; Plasma stability; Plasma waves;

fLanguage

English

Publisher

ieee

Conference_Titel

Radio Science Conference, 1999. NRSC '99. Proceedings of the Sixteenth National

Conference_Location

Cairo

Print_ISBN

977-5031-62-1

Type

conf

DOI

10.1109/NRSC.1999.760940

Filename

760940