Title :
Long-pulse, low-voltage infrared free-electron laser
Author :
Manheimer, Wallace M. ; Fliflet, Arne W.
Author_Institution :
Div. of Plasma Phys., Naval Res. Lab., Washington, DC, USA
fDate :
1/1/1994 12:00:00 AM
Abstract :
Free-electron lasers (FEL´s) have been developed as powerful IR sources at several sites around the world. This paper considers the design of a relatively compact, low-cost, tunable IR FEL based on a 3-MeV electrostatic accelerator and a submillimeter-wavelength electromagnetic wiggler. The system should be sufficiently portable for use in the field, and applications such as remote sensing and industrial processing are envisioned. The wiggler is powered by a second-harmonic quasioptical gyrotron. A prescription for optimizing the gain of an electromagnetic wiggler FEL is derived and the nonlinear regime is treated by relating the electromagnetic wiggler FEL to the “universal” normalized FEL equations. A point design is given showing accelerator, gyrotron, and output parameters for a system capable of operating over the entire 3-13-μm wavelength atmospheric windows. A wide range of output characteristics is available
Keywords :
free electron lasers; gyrotrons; infrared sources; laser theory; optical design techniques; wigglers; 3 MeV; 3 to 13 mum; FEL; atmospheric windows; compact; electromagnetic wiggler FEL; electrostatic accelerator; industrial processing; infrared free-electron laser; long-pulse; low-cost; low-voltage; nonlinear regime; normalized FEL equations; output characteristics; output parameters; powerful IR sources; remote sensing; second-harmonic quasioptical gyrotron; submillimeter-wavelength electromagnetic wiggler; tunable IR FEL; Atmospheric waves; Electron beams; Electrostatics; Free electron lasers; Gyrotrons; Ionizing radiation; Linear accelerators; Power lasers; Radio frequency; Undulators;
Journal_Title :
Quantum Electronics, IEEE Journal of
