Locking bandwidth of actively mode-locked semiconductor lasers using fiber-grating external cavities

Author

Zhai, Lu ; Lowery, Arthur J. ; Ahmed, Zaheer

Author_Institution

Dept. of Electr. & Electron. Eng., Melbourne Univ., Parkville, Vic., Australia

Volume

31

Issue

11

fYear

1995

fDate

11/1/1995 12:00:00 AM

Firstpage

1998

Lastpage

2005

Abstract

We demonstrate numerically that actively mode-locked semiconductor lasers employing a linearly-chirped fiber grating in an external cavity can exhibit multiple drive frequency ranges of stable pulse generation, and thus give a large locking bandwidth. The locking bandwidth defines the range of RF drive frequencies over which the laser will generate pulses with low timing jitter. The stable optical pulses are generated with leading or trailing subpulses due to optical energy circulating within the fiber grating. The multiple stable ranges merge if loss is introduced into the fiber-grating region. We also show that the locking bandwidth can be improved if chirp is introduced into the grating. Suprisingly, however, chirp of either sign improves the locking bandwidth

Keywords

chirp modulation; diffraction gratings; jitter; laser cavity resonators; laser mode locking; laser stability; laser theory; optical fibres; optical losses; optical modulation; semiconductor lasers; RF drive frequencies; actively mode-locked semiconductor lasers; external cavity; fiber grating; fiber-grating external cavities; leading subpulses; linearly-chirped fiber grating; locking bandwidth; low timing jitter; multiple drive frequency ranges; multiple stable ranges; optical energy; stable optical pulses; stable pulse generation; trailing subpulses; Bandwidth; Chirp; Fiber gratings; Fiber lasers; Frequency; Laser mode locking; Laser stability; Optical pulse generation; Pulse generation; Semiconductor lasers;

fLanguage

English

Journal_Title

Quantum Electronics, IEEE Journal of

Publisher

ieee

ISSN

0018-9197

Type

jour

DOI

10.1109/3.469281

Filename

469281