DocumentCode :
1105479
Title :
Spectral properties of strongly coupled 1.5 µm DFB laser diodes
Author :
Westbrook, Leslie D. ; Henning, I.D. ; Nelson, Andrew W. ; Fiddyment, Philip J.
Author_Institution :
British Telecom Res. Labs., Martlesham Heath, Ipwich, England
Volume :
21
Issue :
6
fYear :
1985
fDate :
6/1/1985 12:00:00 AM
Firstpage :
512
Lastpage :
518
Abstract :
Spectral measurements of strongly coupled DFB lasers operating at 1.5 μm are presented. The magnitude of the coupling coefficient 
in these devices was determined to be 80 cm-1for lasers with 
m cladding layers and 160 cm-1for devices with 
m cladding layers. These values for are believed to be the largest reported for 1.5 μm DFB lasers. CW spectral linewidths as low as 10 MHz at 15 mW output power were obtained, and the linewidth was observed to vary approximately as the inverse of the device length cubed. Spectral measurements performed under 2 Gbit/s direct modulation exhibited a side mode suppression ratio of >38 dB. The effects of transient wavelength chirping were also investigated in detail and the maximum wavelength deviation was found to be ≃1.5 Å.
in these devices was determined to be 80 cm-1for lasers with m cladding layers and 160 cm-1for devices with m cladding layers. These values for are believed to be the largest reported for 1.5 μm DFB lasers. CW spectral linewidths as low as 10 MHz at 15 mW output power were obtained, and the linewidth was observed to vary approximately as the inverse of the device length cubed. Spectral measurements performed under 2 Gbit/s direct modulation exhibited a side mode suppression ratio of >38 dB. The effects of transient wavelength chirping were also investigated in detail and the maximum wavelength deviation was found to be ≃1.5 Å.Keywords :
Distributed feedback (DFB) lasers; Gallium materials/lasers; Diode lasers; Distributed feedback devices; Epitaxial growth; Etching; Gratings; Laser feedback; Laser modes; Optical coupling; Semiconductor lasers; Waveguide lasers;
fLanguage :
English
Journal_Title :
Quantum Electronics, IEEE Journal of
Publisher :
ieee
ISSN :
0018-9197
Type :
jour
DOI :
10.1109/JQE.1985.1072694
Filename :
1072694
Link To Document :
