DocumentCode
882436
Title
Instabilities and nonlinear L-I characteristics in complex-coupled DFB lasers with antiphase gain and index gratings
Author
Jonsson, Bjorn ; Lowery, Arthur James ; Olesen, Henning ; Tromborg, Bjame
Author_Institution
Tele Danmark Res., Horsholm, Denmark
Volume
32
Issue
5
fYear
1996
fDate
5/1/1996 12:00:00 AM
Firstpage
839
Lastpage
850
Abstract
Complex-coupled DFB lasers can be designed to provide large bandwidths and low chirp by adjusting the strength and phase of their index and gain gratings. In this paper we develop a self-consistent method of calculating the coupling coefficient of complex-coupled DFB lasers with a corrugated active region. Basic geometrical and structural parameters are used as inputs to the model. We show that antiphase coupling implies lasing on the short-wavelength side of the Bragg wavelength which in turn leads to instabilities and/or nonlinearities in the light-current characteristic. The critical output power for onset of instabilities is typically in the order of a few milliwatts. Time-domain simulations are used to assess the potential effects of these instabilities on optical communication systems. We find that transitions from a state of equal output powers from the facets to a state of dramatically different output powers occur within a few nanoseconds of turn-on. The origin of these instabilities is explained using a simple physical model and possible ways of increasing the critical power for instabilities are discussed. For example, we clearly show that the critical power for instability increases when the carrier lifetime is decreased
Keywords
carrier lifetime; chirp modulation; diffraction gratings; distributed feedback lasers; electro-optical modulation; laser stability; laser theory; optical couplers; semiconductor device models; semiconductor lasers; Bragg wavelength; antiphase gain; complex-coupled DFB laser instabilities; complex-coupled DFB lasers; corrugated active region; coupling coefficient; critical output power; dramatically different output powers; equal output powers; geometrical parameters; index gratings; large bandwidths; laser theory; light-current characteristic; low chirp; nonlinear L-I characteristics; nonlinearities; optical communication systems; self-consistent method; semiconductor lasers; structural parameters; time-domain simulations; Bandwidth; Chirp; Gratings; Laser modes; Optical coupling; Optical design; Power generation; Solid modeling; Structural engineering; Time domain analysis;
fLanguage
English
Journal_Title
Quantum Electronics, IEEE Journal of
Publisher
ieee
ISSN
0018-9197
Type
jour
DOI
10.1109/3.493009
Filename
493009
Link To Document