Title :
Jitter reduction through feedback for picosecond pulsed InGaAsP lasers
Author :
Williams, K.A. ; White, I.H. ; Burns, D. ; Sibbett, W.
Author_Institution :
Dept. of Electr. & Electron. Eng., Bristol Univ., UK
fDate :
11/1/1996 12:00:00 AM
Abstract :
Following a comparison of picosecond-pulse generation techniques, feedback schemes are reported for the generation of picosecond pulse trains with improved jitter for both multicontact and conventional single-contact InGaAsP-InP lasers. Subpicosecond jitter is achieved for Q-switched laser sources using a novel optoelectronic feedback scheme. The use of resonant electrical feedback is shown to improve the timing jitter of gain-switched pulses by up to six times. Pulse-to-pulse timing jitter as low as 250 fs is demonstrated for a hybrid of optical and electrical feedback schemes. Limits for timing jitter in diode lasers are established for optoelectronic, electrical, and optical feedback schemes, and the key picosecond pulse generation schemes are compared in terms of timing jitter for the first time
Keywords :
III-V semiconductors; Q-switching; gallium arsenide; gallium compounds; high-speed optical techniques; indium compounds; jitter; laser feedback; semiconductor lasers; 250 fs; InGaAsP-InP; Q-switched laser; gain-switched pulse lasers; jitter reduction; laser feedback; multicontact; optical feedback schemes; optoelectronic feedback scheme; picosecond pulse trains; picosecond pulsed InGaAsP lasers; picosecond-pulse generation techniques; pulse-to-pulse timing jitter; resonant electrical feedback; single-contact InGaAsP-InP lasers; subpicosecond jitter; Diode lasers; Feedback loop; Fiber lasers; Laser feedback; Laser tuning; Optical feedback; Optical pulse generation; Optical pulses; Pulse amplifiers; Timing jitter;
Journal_Title :
Quantum Electronics, IEEE Journal of
