Title :
Phase locking in an infrared short-pulse free-electron laser
Author :
Oepts, D. ; Colson, W.B.
Author_Institution :
FOM-Inst. voor Plasmafysica Rijnhuizen, Nieuwegin, Netherlands
fDate :
4/1/1990 12:00:00 AM
Abstract :
The feasibility of the phase-locking procedure for the external selection of a single mode with reasonable power has been tested by simulation of the optical pulse evolution in a short-pulse free-electron laser using a model based on the self-consistent solution of the equations of motion for the electrons and the wave equation driven by single-particle currents. The simulations show that a high degree of coherence between successive pulses can be induced by a low-finesse etalon. Saturated operation in a greatly reduced number of modes, but with the same total power, is attained with a slight delay in the growth of the power as compared to the case without phase locking
Keywords :
free electron lasers; laser modes; equations of motion; external selection; infrared short-pulse free-electron laser; intracavity interferometric device; low-finesse etalon; model; optical pulse evolution; phase-locking procedure; power; saturation operation; self-consistent solution; simulation; single mode; single-particle currents; wave equation; Bandwidth; Electron accelerators; Electron beams; Free electron lasers; Infrared spectra; Laser mode locking; Laser modes; Optical interferometry; Optical pulses; Radio frequency;
Journal_Title :
Quantum Electronics, IEEE Journal of
