Yutaka Urino scite author profile

This paper reports a hybrid integrated light source fabricated on a Si platform using a spot-size converter (SSC) with a trident Si waveguide. Low-loss coupling for 1.55 μm and 1.3 μm wavelengths was achieved with merely the simple planar form of a Si waveguide with no use of complicated structures such as vertical tapers or an extra dielectric core overlaid on the waveguide. The coupling loss tolerance up to a 1 dB loss increase was larger than the accuracy of our passive alignment technology. The coupling efficiency was quite robust against manufacturing variations in the waveguide width compared with that of a conventional SSC with an inverse taper waveguide. A multi-channel light source with highly uniform output power and a high-temperature light source were fabricated with a 1.55 μm quantum well laser and a 1.3 μm quantum dot laser, respectively. The integration scheme we report can be used to fabricate light sources for high-density, multi-channel Si optical interposers.

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First demonstration of high density optical interconnects integrated with lasers, optical modulators, and photodetectors on single silicon substrate

Urino¹,

Shimizu²,

Okano³

et al. 2011

Opt. Express

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Engineers are currently facing some technical issues in support of the exponential performance growths in information industries. One of the most serious issues is a bottleneck of inter-chip interconnects. We propose a new "Photonics-Electronics Convergence System" concept. High density optical interconnects integrated with a 13-channel arrayed laser diode, silicon optical modulators, germanium photodetectors, and silicon optical waveguides on single silicon substrate were demonstrated for the first time using this system. A 5-Gbps error free data transmission and a 3.5-Tbps/cm(2) transmission density were achieved. We believe that this technology will solve the bandwidth bottleneck problem among LSI chips in the future.

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High-density and wide-bandwidth optical interconnects with silicon optical interposers [Invited]

Urino¹,

Usuki²,

Fujikata³

et al. 2014

Photon. Res.

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Yutaka Urino

Silicon photonics for next generation system integration platform

A Hybrid Integrated Light Source on a Silicon Platform Using a Trident Spot-Size Converter

First demonstration of high density optical interconnects integrated with lasers, optical modulators, and photodetectors on single silicon substrate

High-density and wide-bandwidth optical interconnects with silicon optical interposers [Invited]

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