Designs for a 10.6 micrometer Electromagnetic Wiggler Free-Electron Laser (FEL)

Abstract

The possibility of developing gyrotron-powered electromagnetic wiggler free-electron laser (FEL) oscillators is of considerable interest for reducing the electron energy required for operation in the infrared spectrum. This memorandum considers the design of a 10.6 microns electromagnetic wiggler FEL experiment based on the University of California at Santa Barbara (UCSB) 6 MeV electrostatic accelerator. Both waveguide and quasioptical wiggler resonator configurations are considered. A prescription for optimizing the gain of a waveguide electromagnetic wiggler FEL is derived and the nonlinear regime is treated by relating the electromagnetic wiggler FEL equations-of-motion to the Universal normalized FEL equations. Point designs are given showing accelerator, gyrotron, and output parameters for 10.6 micrometer Proof-of-Principle FEL experiments based on both waveguide gyrotron and quasioptical gyrotron wigglers. Designs are given for both 5 A and 2 A FEL electron beam currents. Gyrotron- powered-wiggler, Infrared radiation, Electrostatic accelerator, Electromagnetic wiggler, Gyrotron, Quasioptical gyrotron, Free-electron laser

Document Details

Document Type

Technical Report

Publication Date

Aug 30, 1993

Accession Number

ADA269695

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