Title :
Coherent spontaneous emission and spontaneous phase locking in a free-electron laser
Author :
Weits, H.H. ; Oepts, D.
Author_Institution :
FOM Inst. for Plasma Phys., Nieuwegein, Netherlands
fDate :
1/1/1999 12:00:00 AM
Abstract :
We present measurements that demonstrate the existence of spontaneous coherence between independently generated laser pulses in the FELIX free-electron laser. The experiments show that the interpulse coherence is caused by a high level of coherently enhanced spontaneous emission. We have been able to manipulate the level of interpulse coherence by changing the settings of the electron accelerating system. The shape of the electron bunches critically determines the amount of coherent emission. Results of simulations of the acceleration process are used to discuss the influence of the accelerator parameters on the electron bunch shape. The experimentally determined correlation function of the laser pulses is reproduced by a simple pulse-evolution model. Thereby, an estimate of the timing jitter of the RF accelerating system is obtained
Keywords :
free electron lasers; infrared sources; laser mode locking; laser transitions; light coherence; particle beam bunching; spontaneous emission; FELIX free-electron laser; RF accelerating system; acceleration process; coherent emission; coherent spontaneous emission; coherently enhanced spontaneous emission; correlation function; electron accelerating system; electron bunch shape; free-electron laser; independently generated laser pulses; interpulse coherence; laser pulses; pulse-evolution model; spontaneous coherence; spontaneous phase locking; timing jitter; Acceleration; Electron accelerators; Electron emission; Free electron lasers; Laser modes; Optical pulse generation; Optical pulses; Pulse measurements; Shape; Spontaneous emission;
Journal_Title :
Quantum Electronics, IEEE Journal of
