Error-free 320-Gb/s all-optical wavelength conversion using a single semiconductor optical amplifier

Y. Liu; E. Tangdiongga; Zhonggui Li; Huug de Waardt; A. M. Koonen; G. D. Khoe; Xuewen Shu; Ian Bennion; H. J S Dorren

doi:10.1109/JLT.2006.888484

Error-free 320-Gb/s all-optical wavelength conversion using a single semiconductor optical amplifier

Y. Liu^*, E. Tangdiongga, Zhonggui Li, Huug de Waardt, A. M. Koonen, G. D. Khoe, Xuewen Shu, Ian Bennion, H. J S Dorren

^*Corresponding author for this work

Aston Institute of Photonic Technologies (AiPT)

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

Abstract

We demonstrate error-free wavelength conversion at 320 Gb/s by employing a semiconductor optical amplifier that fully recovers in 56 ps. Error-free operation is achieved without using forward error correction technology. We employ optical filtering to select the blue sideband of the spectrum of the probe light, to utilize fast chirp dynamics introduced by the amplifier, and to overcome the slow gain recovery. This leads to an effective recovery time of less than 1.8 ps for the wavelength converter. The wavelength converter has a simple configuration and is implemented by using fiber-pigtailed components. The concept allows photonic integration.

Original language	English
Pages (from-to)	103-108
Number of pages	6
Journal	Journal of Lightwave Technology
Volume	25
Issue number	1
DOIs	https://doi.org/10.1109/JLT.2006.888484
Publication status	Published - 1 Jan 2007

Keywords

All-optical switch
Nonlinear optics
Semiconductor optical amplifier (SOA)
Ultrafast
Wavelength conversion

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10.1109/JLT.2006.888484

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title = "Error-free 320-Gb/s all-optical wavelength conversion using a single semiconductor optical amplifier",

abstract = "We demonstrate error-free wavelength conversion at 320 Gb/s by employing a semiconductor optical amplifier that fully recovers in 56 ps. Error-free operation is achieved without using forward error correction technology. We employ optical filtering to select the blue sideband of the spectrum of the probe light, to utilize fast chirp dynamics introduced by the amplifier, and to overcome the slow gain recovery. This leads to an effective recovery time of less than 1.8 ps for the wavelength converter. The wavelength converter has a simple configuration and is implemented by using fiber-pigtailed components. The concept allows photonic integration.",

keywords = "All-optical switch, Nonlinear optics, Semiconductor optical amplifier (SOA), Ultrafast, Wavelength conversion",

author = "Y. Liu and E. Tangdiongga and Zhonggui Li and {de Waardt}, Huug and Koonen, {A. M.} and Khoe, {G. D.} and Xuewen Shu and Ian Bennion and Dorren, {H. J S}",

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doi = "10.1109/JLT.2006.888484",

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T1 - Error-free 320-Gb/s all-optical wavelength conversion using a single semiconductor optical amplifier

AU - Liu, Y.

AU - Tangdiongga, E.

AU - Li, Zhonggui

AU - de Waardt, Huug

AU - Koonen, A. M.

AU - Khoe, G. D.

AU - Shu, Xuewen

AU - Bennion, Ian

AU - Dorren, H. J S

PY - 2007/1/1

Y1 - 2007/1/1

N2 - We demonstrate error-free wavelength conversion at 320 Gb/s by employing a semiconductor optical amplifier that fully recovers in 56 ps. Error-free operation is achieved without using forward error correction technology. We employ optical filtering to select the blue sideband of the spectrum of the probe light, to utilize fast chirp dynamics introduced by the amplifier, and to overcome the slow gain recovery. This leads to an effective recovery time of less than 1.8 ps for the wavelength converter. The wavelength converter has a simple configuration and is implemented by using fiber-pigtailed components. The concept allows photonic integration.

AB - We demonstrate error-free wavelength conversion at 320 Gb/s by employing a semiconductor optical amplifier that fully recovers in 56 ps. Error-free operation is achieved without using forward error correction technology. We employ optical filtering to select the blue sideband of the spectrum of the probe light, to utilize fast chirp dynamics introduced by the amplifier, and to overcome the slow gain recovery. This leads to an effective recovery time of less than 1.8 ps for the wavelength converter. The wavelength converter has a simple configuration and is implemented by using fiber-pigtailed components. The concept allows photonic integration.

KW - All-optical switch

KW - Nonlinear optics

KW - Semiconductor optical amplifier (SOA)

KW - Ultrafast

KW - Wavelength conversion

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DO - 10.1109/JLT.2006.888484

M3 - Article

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EP - 108

JO - Journal of Lightwave Technology

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ER -

Error-free 320-Gb/s all-optical wavelength conversion using a single semiconductor optical amplifier

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