Title :
Angled-Facet Spot-Size-Converter Integrated Semiconductor Optical Amplifiers Using Asymmetric Twin Waveguide Technology
Author :
Hou, Lianping ; Ren, Zhong ; Shu, Yi ; Yu, Siyuan
Author_Institution :
Univ. of Bristol, Bristol
fDate :
4/15/2008 12:00:00 AM
Abstract :
The extinction ratio (defined as the difference in the optical power between 0-dB fiber-to-fiber loss and the off state level) is enhanced with the introduction of an S-bend waveguide structure using asymmetric twin waveguide techniques for a spot-size converter integrated semiconductor optical amplifier (SSC-SOA) with a polarization-insensitive offset superlattice. Angled waveguides are introduced in order to obtain low facet reflectivity without the need for antireflection coating. A curved waveguide is introduced to connect the angled and straight waveguide, minimizing their coupling loss while achieving a lateral spatial mode filter. The SSC-SOA, operating at 1.62-mum wavelength, achieves an extinction ratio up to 70 dB and a fiber-to-fiber gain of 10 dB using cleaved, flat end single-mode optical fibers.
Keywords :
integrated optics; optical waveguides; semiconductor optical amplifiers; S-bend waveguide structure; angled waveguide; angled-facet spot-size-converter; asymmetric twin waveguide technology; curved waveguide; extinction ratio; integrated semiconductor optical amplifier; optical switch; polarization insensitive offset superlattice; single-mode optical fiber; spot-size converter; wavelength 1.62 mum; Extinction ratio; Integrated optics; Optical fiber polarization; Optical fibers; Optical filters; Optical superlattices; Optical waveguides; Semiconductor optical amplifiers; Semiconductor waveguides; Stimulated emission; Asymmetric twin waveguide (ATG); optical switch; semiconductor optical amplifier (SOA); semiconductor optical amplifier (SOA) array; spot-size converter (SSC);
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2008.918860
