Dynamics of High Temperature Plasmas.

Abstract

Contents: Envelope Model for Beam Transport and Focusing in an Induction Linac; High-Current Accelerators; Free-Electron Laser Studies; Laser Beat Wave Particle Acceleration; Orbitron Maser Design; Electron Beam Stability in the Modified Betatron; Relativistic Electron Beam Diode Design; Free Electron Laser Application to XUV Production and Particle Acceleration; High-Current Betatron with Stellarator Fields; A Bumpy-Torus Betatron; Design and Operation of a Collective Millimeter-Wave Free-Electron Laser; Study of Gain, Bandwidth, and Tunability of a Millimeter-Wave Free-Electron Laser Operating in the Collective Regime; Nonlinear Analysis of Free-Electron-Laser Amplifiers with Axial Guide Fields; Unstable Electrostatic Beam Modes in Free-Electron-Laser Systems; Three-Dimensional Theory of Free Electron Lasers with an Axial Guide Field; Three-Dimensional Theory of the Free-Electron Laser in the Collective Regime; Rapid Electron Beam Accelerators; Excitation of the Plasma Waves in the Laser Beat Wave Accelerator; Dynamics of Space-Charge Waves in the Laser Beat Wave Accelerator; Finite Larmor Radius Diocotron Instability; One Dimensional Models for Relativistic Electron Beam Diode Design; Collective Instabilities and High-Gain Regime in a Free Electron Laser; and Free Electron Lasers for the XUV Spectral Region.

Document Details

Document Type

Technical Report

Publication Date

Oct 01, 1985

Accession Number

ADA161202

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