Title :
Contradirectional Coupling Between III–V Stacks and Silicon-On-Insulator Corrugated Waveguides for Laser Emission by Distributed Feedback Effect
Author :
Dupont, Tiphaine ; Grenouillet, Laurent ; Chelnokov, Alexei ; Viktorovitch, Pierre
Author_Institution :
DOPT, MINATEC, Grenoble, France
Abstract :
We propose a distributed-feedback laser design that takes advantage of Bragg contradirectional coupling between a III-V stack and a silicon-on-insulator corrugated waveguide. This particular coupling scheme enables an equal share of the optical field between the III-V stack and the silicon waveguide, therefore providing an optimum tradeoff between modal gain and coupling efficiency. Numerical simulations indicate that a coupling constant of the order of 12 mm-1 could be achieved for a 200-nm III-V stack-waveguide spacing, relaxing the constraints toward the integration technology.
Keywords :
III-V semiconductors; distributed feedback lasers; optical waveguides; semiconductor lasers; silicon-on-insulator; Bragg contradirectional coupling; III-V stack-waveguide spacing; III-V stacks; distributed feedback effect; distributed-feedback laser design; laser emission; numerical simulations; optical field; silicon waveguide; silicon-on-insulator corrugated waveguides; wavelength 200 nm; Bonding; Couplings; Distributed feedback devices; Gratings; Laser feedback; Optical coupling; Optical design; Optical feedback; Optical waveguide components; Optical waveguides; Silicon on insulator technology; Stimulated emission; Waveguide lasers; Corrugated waveguides; coupled mode analysis; distributed feedback (DFBs) lasers; heterogeneous integration; silicon photonics;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2010.2061224
