Title :
Injection-Locked Mode-Locked Laser With Long-Term Stabilization and High Power-per-Combline
Author :
Williams, Charles ; Quinlan, Franklyn ; Delfyett, Peter J.
Author_Institution :
Coll. of Opt. & Photonics, Univ. of Central Florida, Orlando, FL
Abstract :
A novel method is presented to provide long-term stabilization of an injection-locked harmonically mode-locked laser to a narrow linewidth continuous-wave (CW) source for the first time. The method, based on the Pound-Drever-Hall method of laser frequency stabilization, exploits the phase shift across a laser cavity mode resonance to detect the offset between the CW frequency and the combline frequency desired for injection-locking. Long-term suppression of the radio-frequency supermode noise spurs is shown as well as 36-dB suppression of optical supermodes. Significant reductions in phase and amplitude noise are also shown due to injection. Postamplification noise results are presented, showing an increase in optical power per combline with no degradation in pulse-to-pulse energy fluctuation or timing jitter.
Keywords :
laser beams; laser cavity resonators; laser frequency stability; laser mode locking; laser noise; semiconductor lasers; timing jitter; CW frequency; Pound-Drever-Hall method; amplitude noise reduction; combline frequency; harmonically mode-locked laser; injection-locked mode-locked laser; laser cavity mode resonance; long-term laser frequency stabilization; long-term radio-frequency supermode noise suppression; narrow linewidth continuous-wave source; optical power per combline; optical supermodes; phase noise reduction; phase shift; postamplification noise; pulse-to-pulse energy fluctuation; timing jitter; Harmonic mode-locking; injection-locking; optical frequency stabilization; supermode noise; timing jitter;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2008.2008816
