Photolithographically fabricated silicon photonic crystal nanocavity photoreceiver with laterally integrated p-i-n diode

Nurul Ashikin Binti Daud; Takasumi Tanabe

doi:10.1063/1.5055577

Photolithographically fabricated silicon photonic crystal nanocavity photoreceiver with laterally integrated p-i-n diode

Nurul Ashikin Binti Daud, Takasumi Tanabe

Department of Electronics and Electrical Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

We fabricated a SiO₂-clad all-silicon high-Q integration of p-i-n diode with photonic crystal nanocavity to demonstrate channel selective photoreceiver operation at a speed of 0.1 Gbs^-1 for telecom wavelength light. This SiO₂-clad device is photolithographically fabricated with a fabrication method compatible with that used for a complementary metal-oxide semiconductor, and the structure allows future mass production. The dark current is as small as 37.6 pA, which is possible because of the all-silicon structure clad with SiO₂. As a result of the low noise, the minimum detectable optical power is -20 dBm, while the footprint of this integrated device is a very small 50 μm². The characteristics of this device may allow us to use it as a compact monitoring device for optical networks.

Original language	English
Article number	105224
Journal	AIP Advances
Volume	8
Issue number	10
DOIs	https://doi.org/10.1063/1.5055577
Publication status	Published - 2018 Oct 1

ASJC Scopus subject areas

Physics and Astronomy(all)

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title = "Photolithographically fabricated silicon photonic crystal nanocavity photoreceiver with laterally integrated p-i-n diode",

abstract = "We fabricated a SiO2-clad all-silicon high-Q integration of p-i-n diode with photonic crystal nanocavity to demonstrate channel selective photoreceiver operation at a speed of 0.1 Gbs-1 for telecom wavelength light. This SiO2-clad device is photolithographically fabricated with a fabrication method compatible with that used for a complementary metal-oxide semiconductor, and the structure allows future mass production. The dark current is as small as 37.6 pA, which is possible because of the all-silicon structure clad with SiO2. As a result of the low noise, the minimum detectable optical power is -20 dBm, while the footprint of this integrated device is a very small 50 μm2. The characteristics of this device may allow us to use it as a compact monitoring device for optical networks.",

author = "{Binti Daud}, {Nurul Ashikin} and Takasumi Tanabe",

note = "Funding Information: Part of this work was supported by the Strategic Information and Communications R&D Promotion Programme (SCOPE) (#152103015) from the Ministry of Internal Affairs and Communications, Japan. The authors thanks Mr. Tomohisa Tabata, Dr. Tomohiro Tetsumoto, and Mr. Hajime Kumazaki for their help and valuable discussions. Publisher Copyright: {\textcopyright} 2018 Author(s).",

year = "2018",

month = oct,

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doi = "10.1063/1.5055577",

language = "English",

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journal = "AIP Advances",

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AU - Binti Daud, Nurul Ashikin

AU - Tanabe, Takasumi

N1 - Funding Information: Part of this work was supported by the Strategic Information and Communications R&D Promotion Programme (SCOPE) (#152103015) from the Ministry of Internal Affairs and Communications, Japan. The authors thanks Mr. Tomohisa Tabata, Dr. Tomohiro Tetsumoto, and Mr. Hajime Kumazaki for their help and valuable discussions. Publisher Copyright: © 2018 Author(s).

PY - 2018/10/1

Y1 - 2018/10/1

N2 - We fabricated a SiO2-clad all-silicon high-Q integration of p-i-n diode with photonic crystal nanocavity to demonstrate channel selective photoreceiver operation at a speed of 0.1 Gbs-1 for telecom wavelength light. This SiO2-clad device is photolithographically fabricated with a fabrication method compatible with that used for a complementary metal-oxide semiconductor, and the structure allows future mass production. The dark current is as small as 37.6 pA, which is possible because of the all-silicon structure clad with SiO2. As a result of the low noise, the minimum detectable optical power is -20 dBm, while the footprint of this integrated device is a very small 50 μm2. The characteristics of this device may allow us to use it as a compact monitoring device for optical networks.

AB - We fabricated a SiO2-clad all-silicon high-Q integration of p-i-n diode with photonic crystal nanocavity to demonstrate channel selective photoreceiver operation at a speed of 0.1 Gbs-1 for telecom wavelength light. This SiO2-clad device is photolithographically fabricated with a fabrication method compatible with that used for a complementary metal-oxide semiconductor, and the structure allows future mass production. The dark current is as small as 37.6 pA, which is possible because of the all-silicon structure clad with SiO2. As a result of the low noise, the minimum detectable optical power is -20 dBm, while the footprint of this integrated device is a very small 50 μm2. The characteristics of this device may allow us to use it as a compact monitoring device for optical networks.

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Photolithographically fabricated silicon photonic crystal nanocavity photoreceiver with laterally integrated p-i-n diode

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