SOA-Integrated Silicon Photonics Switch and Its Lossless Multistage Transmission of High-Capacity WDM Signals

We experimentally demonstrate the lossless transmission of wavelength division multiplexing (WDM) signals through a silicon-photonics 4 × 4 switch with a flip-chip bonded 4-channel semiconductor optical amplifier (SOA). We first optimized the input power and gain of the SOA-integrated switch to obta...

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Veröffentlicht in:	Journal of lightwave technology 2019-01, Vol.37 (1), p.123-130
Hauptverfasser:	Konoike, Ryotaro, Suzuki, Keijiro, Inoue, Takashi, Matsumoto, Takeshi, Kurahashi, Teruo, Uetake, Ayahito, Takabayashi, Kazumasa, Akiyama, Suguru, Sekiguchi, Shigeaki, Namiki, Shu, Kawashima, Hitoshi, Ikeda, Kazuhiro
Format:	Artikel
Sprache:	eng
Schlagworte:	Amplification Bit error rate Crosstalk Error correction Fiber optic networks Integrated optics Multistage Optical communication Optical fiber devices Optical switches Photonics Semiconductor optical amplifiers Signal quality Silicon silicon photonics Switching theory Wave division multiplexing Wavelength division multiplexing
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container_title	Journal of lightwave technology
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creator	Konoike, Ryotaro Suzuki, Keijiro Inoue, Takashi Matsumoto, Takeshi Kurahashi, Teruo Uetake, Ayahito Takabayashi, Kazumasa Akiyama, Suguru Sekiguchi, Shigeaki Namiki, Shu Kawashima, Hitoshi Ikeda, Kazuhiro
description	We experimentally demonstrate the lossless transmission of wavelength division multiplexing (WDM) signals through a silicon-photonics 4 × 4 switch with a flip-chip bonded 4-channel semiconductor optical amplifier (SOA). We first optimized the input power and gain of the SOA-integrated switch to obtain the optimum operation point in terms of the transmitted signal quality. We then performed simultaneous transmission of 8-ch, 32-Gbaud, SP 16-QAM WDM (800 Gb/s) signals through all the four paths of the switch. The effect of crosstalk on the switch was very small, and thus could not be observed. We also examined multistage (up to four stages) transmission of the signals with circulating configurations. We show that even for a 4-stage transmission, the bit error rate of the transmitted signal is below the 20% forward-error-correction limit. Finally, we discuss approaches to improve the optical signal-to-noise ratio of the transmitted signals to enlarge the signal quality margin and increase the possible number of the cascading stages and/or WDM channels for wide applications.
doi_str_mv	10.1109/JLT.2018.2868084
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We first optimized the input power and gain of the SOA-integrated switch to obtain the optimum operation point in terms of the transmitted signal quality. We then performed simultaneous transmission of 8-ch, 32-Gbaud, SP 16-QAM WDM (800 Gb/s) signals through all the four paths of the switch. The effect of crosstalk on the switch was very small, and thus could not be observed. We also examined multistage (up to four stages) transmission of the signals with circulating configurations. We show that even for a 4-stage transmission, the bit error rate of the transmitted signal is below the 20% forward-error-correction limit. 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subjects	Amplification Bit error rate Crosstalk Error correction Fiber optic networks Integrated optics Multistage Optical communication Optical fiber devices Optical switches Photonics Semiconductor optical amplifiers Signal quality Silicon silicon photonics Switching theory Wave division multiplexing Wavelength division multiplexing
title	SOA-Integrated Silicon Photonics Switch and Its Lossless Multistage Transmission of High-Capacity WDM Signals
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