Title :
Field theory of a traveling wave tube amplifier with a tape helix
Author :
Freund, H.P. ; Vanderplaats, N.R. ; Kodis, M.A.
Author_Institution :
Sci. Applications Int. Corp., McLean, VA, USA
fDate :
12/1/1993 12:00:00 AM
Abstract :
A self-consistent relativistic field theory for a helix traveling wave tube (TWT) is presented for a configuration in which a magnetized pencil beam propagates through a tape helix enclosed with a loss-free well. A linear analysis of the interaction is solved subject to the boundary conditions imposed by the beam, helix, and wall. The wave equation for the fields within the electron beam corresponds to the Appleton-Hartree magnetoionic wave modes that are of mixed electrostatic/electromagnetic polarization. Hence, the determinantal dispersion equation that is obtained implicitly includes beam space-charge effects without recourse to a heuristic model of the space-charge field. This dispersion equation includes azimuthal variations and all spatial harmonics of the tape helix. Solutions that correspond to both the extraordinary (X) and ordinary (O ) solutions for the Appleton-Hartree modes are found numerically
Keywords :
parametric amplifiers; relativistic electron beam tubes; travelling-wave-tubes; wave equations; Appleton-Hartree magnetoionic wave modes; azimuthal variations; beam space-charge effects; boundary conditions; determinantal dispersion equation; electron beam; extraordinary solutions; linear analysis; loss-free well; magnetized pencil beam; mixed electrostatic-electromagnetic polarisation; ordinary solutions; self-consistent relativistic field theory; spatial harmonics; tape helix; traveling wave tube amplifier; wave equation; Boundary conditions; Dispersion; Electromagnetic fields; Electromagnetic scattering; Electromagnetic wave polarization; Electron beams; Electrostatics; Magnetic analysis; Partial differential equations; Propagation losses;
Journal_Title :
Plasma Science, IEEE Transactions on
