Presentation	2012-05-25 A Hybrid Integrated Light Source on A Si substrate Using A Trident Spot-size Converter Nobuaki HATORI, Makoto OKANO, Masahige ISHIZAKA, Takanori SHIMIZU, Tsuyoshi YAMAMOTO, Yutaka URINO, Masahiko MORI, Takahiro NAKAMURA, Yasuhiko ARAKAWA,
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Abstract(in English)	We have developed a novel spot size converter (SSC) with trident silicon (Si) waveguide for hybrid integrated light source on photonics-electronics convergence system. Low loss coupling was achieved by only a simple planer form of Si waveguide with no use of complicate structures such as vertical taper, extra dielectric core overlaid on Si waveguide and so on. The coupling loss was 2.3dB, and the tolerance of misalignment up to IdB loss increase was about ±0.9μm. And also, large robustness for the coupling efficiency against the manufacturing fluctuations of waveguide width was confirmed compared with that of a conventional SSC with an inverse taper waveguide. Furthermore, we have fabricated the hybrid integrated light source on a Si substrate using the proposed trident SSC, and demonstrated low coupling loss of 2.5dB when a laser diode was mounted on a Si platform. It was confirmed that high power operation of a high density integrated light source including an optical splitter was possible, and that the integrated light source was applicable to photonics-electronics convergence system.
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Keyword(in English)	Optical Interconnects / Silicon Photonics / Hybrid Integration / Light Source
Paper #	LQE2012-4
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Conference Information
Committee	LQE
Conference Date	2012/5/18(1days)
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Paper Information
Registration To	Lasers and Quantum Electronics (LQE)
Language	JPN
Title (in Japanese)	(See Japanese page)
Sub Title (in Japanese)	(See Japanese page)
Title (in English)	A Hybrid Integrated Light Source on A Si substrate Using A Trident Spot-size Converter
Sub Title (in English)
Keyword(1)	Optical Interconnects
Keyword(2)	Silicon Photonics
Keyword(3)	Hybrid Integration
Keyword(4)	Light Source
1st Author's Name	Nobuaki HATORI
1st Author's Affiliation	Photonics Electronics Technology Research Association:Institute for Photonics-Electronics Convergence System Technology()
2nd Author's Name	Makoto OKANO
2nd Author's Affiliation	Institute for Photonics-Electronics Convergence System Technology:National Institute of Advanced Industrial Science and Technology
3rd Author's Name	Masahige ISHIZAKA
3rd Author's Affiliation	Photonics Electronics Technology Research Association:Institute for Photonics-Electronics Convergence System Technology
4th Author's Name	Takanori SHIMIZU
4th Author's Affiliation	Photonics Electronics Technology Research Association:Institute for Photonics-Electronics Convergence System Technology
5th Author's Name	Tsuyoshi YAMAMOTO
5th Author's Affiliation	Photonics Electronics Technology Research Association:Institute for Photonics-Electronics Convergence System Technology
6th Author's Name	Yutaka URINO
6th Author's Affiliation	Photonics Electronics Technology Research Association:Institute for Photonics-Electronics Convergence System Technology
7th Author's Name	Masahiko MORI
7th Author's Affiliation	Institute for Photonics-Electronics Convergence System Technology:National Institute of Advanced Industrial Science and Technology
8th Author's Name	Takahiro NAKAMURA
8th Author's Affiliation	Photonics Electronics Technology Research Association:Institute for Photonics-Electronics Convergence System Technology
9th Author's Name	Yasuhiko ARAKAWA
9th Author's Affiliation	Institute for Photonics-Electronics Convergence System Technology:The University of Tokyo
Date	2012-05-25
Paper #	LQE2012-4
Volume (vol)	vol.112
Number (no)	62
Page	pp.pp.-
#Pages	6
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