Si-Ge-Silica Monolithic Integration Platform and Its Application to a 22-Gb/s <formula formulatype="inline"><tex Notation="TeX">$\times$</tex></formula> 16-ch WDM Receiver

Tatsurou Hiraki; Hidetaka Nishi; Tai Tsuchizawa; Rai Kou; Hiroshi Fukuda; Kotaro Takeda; Yasuhiko Ishikawa; Kazumi Wada; Koji Yamada

doi:10.1109/jphot.2013.2269676

IEEE Photonics Journal (Jan 2013)

Si-Ge-Silica Monolithic Integration Platform and Its Application to a 22-Gb/s <formula formulatype="inline"><tex Notation="TeX">$\times$</tex></formula> 16-ch WDM Receiver

Tatsurou Hiraki,
Hidetaka Nishi,
Tai Tsuchizawa,
Rai Kou,
Hiroshi Fukuda,
Kotaro Takeda,
Yasuhiko Ishikawa,
Kazumi Wada,
Koji Yamada

Affiliations

Tatsurou Hiraki: <formula formulatype="inline"><tex Notation="TeX">$^{1}$</tex></formula>NTT Microsystem Integration Laboratories, NTT Corporation, Atsugi, Japan
Hidetaka Nishi: NTT Microsystem Integration Laboratories, NTT Corporation, Atsugi, Japan
Tai Tsuchizawa: NTT Microsystem Integration Laboratories, NTT Corporation, Atsugi, Japan
Rai Kou: NTT Microsystem Integration Laboratories, NTT Corporation, Atsugi, Japan
Hiroshi Fukuda: NTT Microsystem Integration Laboratories, NTT Corporation, Atsugi, Japan
Kotaro Takeda: NTT Microsystem Integration Laboratories, NTT Corporation, Atsugi, Japan
Yasuhiko Ishikawa: <formula formulatype="inline"><tex Notation="TeX">$^{3}$</tex></formula> Department of Materials Engineering, University of Tokyo, Tokyo, Japan
Kazumi Wada: Department of Materials Engineering, University of Tokyo, Tokyo, Japan
Koji Yamada: NTT Microsystem Integration Laboratories, NTT Corporation, Atsugi, Japan

DOI: https://doi.org/10.1109/jphot.2013.2269676
Journal volume & issue: Vol. 5, no. 4
pp. 4500407 – 4500407

Abstract

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We describe a Si-Ge-silica monolithic integration platform for telecommunications applications. The monolithic integration process features low-temperature silica film deposition by electron-cyclotron-resonance chemical vapor deposition to prevent thermal damage to Si/Ge active devices. The monolithically integrated Si and SiOx waveguides show propagation losses of 2.8 and 0.9 dB/cm, and the inverse-tapered spot-size converters show a coupling loss of 0.35 dB. We applied the platform to a 22-Gb/s × 16-ch wavelength-division multiplexing receiver, in which a 16-ch SiOx arrayed waveguide grating (AWG) with 1.6-nm channel separation and Ge photodiodes (PDs) are monolithically integrated. The AWG-PD device exhibits fiber-to-PD responsivity of 0.29 A/W and interchannel crosstalk of less than -22 dB and successfully receives 22-Gb/s signal for all 16 channels. In addition, we demonstrate 40-km transmission of 12.5-Gb/s signal and obtain sensitivity of -6.8 dBm at a bit error rate of 10-9 without transimpedance amplifiers.

Published in IEEE Photonics Journal

ISSN: 1943-0655 (Online)
Publisher: IEEE
Country of publisher: United States
LCC subjects: Technology: Engineering (General). Civil engineering (General): Applied optics. Photonics; Science: Physics: Optics. Light
Website: http://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=4563994

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