Title :
A slow wave free-electron laser
Author :
Tripathi, Vipin K. ; Liu, Chuan Sheng
Author_Institution :
Lab. for Plasma Res., Maryland Univ., College Park, MD, USA
fDate :
8/1/1989 12:00:00 AM
Abstract :
A simple calculation of a free-electron laser in the Compton regime that uses a dielectric-lined waveguide is presented. The introduction of a dielectric lining in a free-electron laser considerably reduces the requirements on beam voltage for generating a given frequency ω1=k0c/(1 - vb η/c), where k0 is the wiggler wave period η is the effective index of refraction (1<η<√ε) and ε is the permittivity. The system supports electromagnetic waves whose Poynting flux is largely concentrated in the dielectric; hence the electron beam is required to propagate close to the dielectric lining. The mode structure and dispersion behavior of the guiding system without the beam are discussed. a thin annular beam is introduced, and a perturbation theory is used to obtain the frequency and growth rate of radiation
Keywords :
dielectric-loaded waveguides; electromagnetic wave refraction; electromagnetic waves; free electron lasers; permittivity; perturbation theory; Compton regime; Poynting flux; beam voltage; dielectric-lined waveguide; dispersion behavior; effective index of refraction; electromagnetic waves; electron beam; guiding system; mode structure; permittivity; perturbation theory; slow wave free-electron laser; thin annular beam; wiggler wave period; Dielectrics; Electromagnetic refraction; Electromagnetic waveguides; Free electron lasers; Frequency; Laser beams; Time of arrival estimation; Undulators; Voltage; Waveguide lasers;
Journal_Title :
Plasma Science, IEEE Transactions on
