DocumentCode
1763430
Title
Integrated High-Performance TE/TM Converters for Polarization Independence in Semiconductor Optical Amplifiers
Author
Felicetti, Manuela ; van der Tol, Jos J. G. M. ; Geluk, Erik Jan ; Pustakhod, Dzmitry ; Wale, Michael J. ; Smit, Meint K.
Author_Institution
COBRA Inter-Univ. Res. Inst. on Commun. Technol., Opto-Electron. Devices Group, Eindhoven Univ. of Technol., Eindhoven, Netherlands
Volume
33
Issue
17
fYear
2015
fDate
Sept.1, 1 2015
Firstpage
3584
Lastpage
3590
Abstract
Integrated polarization converters (PCs) with high (>99%) conversion efficiency open up many new possibilities in an InP-based photonic integrated circuit. In this paper, we describe how such a PC can be added to a circuit containing semiconductor optical amplifiers (SOAs), in order to obtain polarization independent amplification. Polarization independence is obtained by placing the PC halfway between two identical SOA sections. This approach has the advantage that no compromises in design and fabrication are needed. The polarization conversion is found to be very high, above 99.5%, when using a tolerant two-section PC. The extra insertion loss due to the converter is below 0.5 dB. The polarization-dependent gain (PDG) of the SOA reduces from 17 dB to only 0.3 dB by the inclusion of the PC. This is comparable to the best PDG values found in the literature with other techniques. The reduction is achieved over the whole C-band and for varying pump currents.
Keywords
III-V semiconductors; indium compounds; integrated optics; light polarisation; optical losses; semiconductor optical amplifiers; C-band; indium phosphide-based photonic integrated circuit; insertion loss; integrated high-performance TE-TM converters; integrated polarization converters; polarization independent amplification; polarization-dependent gain; pump current variation; semiconductor optical amplifiers; Etching; III-V semiconductor materials; Indium phosphide; Integrated optics; Optical device fabrication; Semiconductor optical amplifiers; Indium Phosphide; Indium phosphide; photonic integration; polarization converter; semiconductor optical amplifier;
fLanguage
English
Journal_Title
Lightwave Technology, Journal of
Publisher
ieee
ISSN
0733-8724
Type
jour
DOI
10.1109/JLT.2015.2445374
Filename
7123573
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