Presentation 2013-08-29
Low Power Consumption Operation of A Hybrid Integrated Light Source on A Si Substrate for Inter-chip Optical Interconnects
Nobuaki HATORI, Takanori SHIMIZU, Makoto OKANO, Masashige ISHIZAKA, Tsuyoshi YAMAMOTO, Yutaka URINO, Masahiko MORI, Takahiro NAKAMURA, Yasuhiko ARAKAWA,
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Abstract(in English) We present the lowest energy per bit operation of a hybrid integrated light source on a silicon chip for optical interconnection considering wall-plug efficiency of a laser diode (LD). We investigated a multi-channel configuration for low power operation of light sources on a silicon substrate in a photonics-electronics convergence system. We confirmed that lower power consumption per channel can be achieved by using an architecture specific to multi-branching configuration with a single LD. We demonstrated 27.9 mW/channel at 12.5 Gbps with an error free optical link of a hybrid integrated light source as part of a silicon interposer. 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.
Keyword(in Japanese) (See Japanese page)
Keyword(in English) Inter-chip Optical Interconnects / Silicon Photonics / Hybrid Integration / Light Source
Paper # R2013-33,EMD2013-39,CPM2013-58,OPE2013-62,LQE2013-32
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Conference Information
Committee EMD
Conference Date 2013/8/22(1days)
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Paper Information
Registration To Electromechanical Devices (EMD)
Language JPN
Title (in Japanese) (See Japanese page)
Sub Title (in Japanese) (See Japanese page)
Title (in English) Low Power Consumption Operation of A Hybrid Integrated Light Source on A Si Substrate for Inter-chip Optical Interconnects
Sub Title (in English)
Keyword(1) Inter-chip 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 Takanori SHIMIZU
2nd Author's Affiliation Photonics Electronics Technology Research Association:Institute for Photonics-Electronics Convergence System Technology
3rd Author's Name Makoto OKANO
3rd Author's Affiliation Institute for Photonics-Electronics Convergence System Technology:National Institute of Advanced Industrial Science and Technology
4th Author's Name Masashige ISHIZAKA
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 2013-08-29
Paper # R2013-33,EMD2013-39,CPM2013-58,OPE2013-62,LQE2013-32
Volume (vol) vol.113
Number (no) 187
Page pp.pp.-
#Pages 6
Date of Issue