DocumentCode
1187571
Title
Tunable monolithic mode-locked lasers on InP with low timing jitter
Author
Kaiser, R. ; Hüttl, B. ; Heidrich, H. ; Fidorra, S. ; Rehbein, W. ; Stolpe, H. ; Stenzel, R. ; Ebert, W. ; Sahin, G.
Author_Institution
Fraunhofer-Inst. fur Nachrichtentechnik, Heinrich-Hertz-Inst., Berlin, Germany
Volume
15
Issue
5
fYear
2003
fDate
5/1/2003 12:00:00 AM
Firstpage
634
Lastpage
636
Abstract
Pulse trains with only 2 ps in width and low root-mean-square timing jitter of 220 fs are demonstrated from fine tunable monolithic 40-GHz laser integrated circuits on GaInAsP-InP. The repetition rate is tunable within 500 MHz by changing only the gain current and the absorber voltage. Simultaneously, the small pulsewidths are kept constant and the timing jitter remains below 300 fs. The determined time-bandwidth products between 0.37 and 0.5 are close to the transform limit and the fiber coupled optical power is /spl ges/1 mW. The fact that pulsewidth and timing jitter remain small over the whole repetition-rate tuning range constitutes an important step toward economic commercial applications, especially if frequency shifts caused by fabrication tolerances have to be compensated.
Keywords
III-V semiconductors; gallium arsenide; indium compounds; integrated optics; laser mode locking; laser tuning; optical pulse generation; quantum well lasers; timing jitter; 1 mW; 2 ps; GaInAsP-InP; GaInAsP-InP tunable monolithic mode-locked lasers; InP; absorber voltage; fiber coupled optical power; fine tunable monolithic 40-GHz laser integrated circuits; gain current; low timing jitter; pulse trains; repetition rate; repetition-rate tuning range; strained multiple quantum well; time-bandwidth products; transform limit; Indium phosphide; Laser mode locking; Monolithic integrated circuits; Optical fibers; Optical pulses; Pulse circuits; Space vector pulse width modulation; Timing jitter; Tunable circuits and devices; Voltage;
fLanguage
English
Journal_Title
Photonics Technology Letters, IEEE
Publisher
ieee
ISSN
1041-1135
Type
jour
DOI
10.1109/LPT.2003.809924
Filename
1196119
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