Damping and excitation of Langmuir waves in an inhomogeneous relativistic plasma; general theory and pulsar applications

1 January 1982

journal article
Published by IOP Publishing in Plasma Physics

Vol. 24 (1) , 1-18
https://doi.org/10.1088/0032-1028/24/1/001

Abstract

The damping of Langmuir waves during the propagation in the relativistic plasma along the density decrease direction is studied. It is shown that these waves damp over the distance being not greater than the characteristic gradient length scale. The influence of plasma inhomogeneity on the excitation of Langmuir waves by the high energy particle beam is cleared up. Such influence can be essential if the beam density is sufficiently small. It is supposed the results can be of interest in connection with the further development of the theories of pulsar radio radiation based on the assumption that Langmuir waves are essential.

Keywords

This publication has 11 references indexed in Scilit:

On theory of Cherenkov instability of ultrarelativistic beams with one-dimensional distribution of momenta of particles
Plasma Physics, 1981
Modulational instability of nonlinear waves in the relativistic plasma with account of the nonlinear Landau damping
Astrophysics and Space Science, 1980
Oscillations of an isotropic relativistic plasma
Plasma Physics, 1980
Relativistic Langmuir solitons-applications to pulsars
Astrophysics and Space Science, 1978
Coherent pulsar radio radiation by antenna mechanisms: general theory
Monthly Notices of the Royal Astronomical Society, 1977
Pair-production discharges above pulsar polar caps
The Astrophysical Journal, 1977
General Theory of Coherent Curvature Radiation
Monthly Notices of the Royal Astronomical Society, 1976
Level of electrostatic excitation associated with relativistic beam-plasma system and pulsar radiation
Astrophysics and Space Science, 1976
Relativistic Solitons and Pulsars
Physica Scripta, 1975
Powerful relativistic electron beams in a plasma and in a vacuum (theory)
Nuclear Fusion, 1974