Wavelength and Bandwidth Tunable TPA Semiconductor Microcavity Detector for High-Speed Signal Processing in WDM Systems

Bondarczuk K.; Boucher Y. G.; Besnard P.; Reid D.; Barry L. P.

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Wavelength and Bandwidth Tunable TPA Semiconductor Microcavity Detector for High-Speed Signal Processing in WDM Systems

机译：WDM系统中用于高速信号处理的波长和带宽可调TPA半导体微腔检测器

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摘要

We propose a novel design for a semiconductor microcavity nonlinear detector, based on two-photon absorption, for high-speed signal processing applications in future wavelength division multiplexing (WDM) systems. By inserting a phase section and a gain section in the resonant cavity, we could achieve wavelength and bandwidth tunability of the nonlinear detector. Theoretical investigation is carried out in the frame of an extended transfer matrix formalism, leading to the self-consistent calculation of the device properties. We model the design and characteristics of a GaAs/AlGaAs microcavity suitable for selective processing of different WDM channels, operating at various data rates and modulation formats.

机译：我们提出了一种基于双光子吸收的半导体微腔非线性检测器的新颖设计，用于未来波分复用（WDM）系统中的高速信号处理应用。通过在谐振腔中插入相位部分和增益部分，我们可以实现非线性检测器的波长和带宽可调性。在扩展的传输矩阵形式主义的框架内进行了理论研究，从而得出了设备特性的自洽计算。我们对适合以不同数据速率和调制格式运行的不同WDM通道进行选择性处理的GaAs / AlGaAs微腔的设计和特征进行建模。

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来源
《Quantum Electronics, IEEE Journal of》 |2010年第11期|P.1518-1525|共8页
作者
Bondarczuk K.; Boucher Y. G.; Besnard P.; Reid D.; Barry L. P.;
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作者单位

Research Institute for Networks and Communications Engineering, Dublin City University, Dublin, Ireland;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
All-optical signal processing; modeling; multisection vertical-cavity device; transfer matrix formalism; transparent networks; two-photon absorption;

机译：全光信号处理;建模;多腔垂直腔器件;传递矩阵形式;透明网络;双光子吸收;
入库时间 2022-08-17 13:26:45

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1. Chromatic Dispersion Monitoring for High-Speed WDM Systems Using Two-Photon Absorption in a Semiconductor Microcavity [J] . Bondarczuk K.Maguire P.J.Reid D.A.Barry L.P.ODowd J.Guo W.H.Lynch M.Bradley A.L.Donegan J.F. Quantum Electronics, IEEE Journal of . 2009,第3期

机译：半导体微腔中使用双光子吸收的高速WDM系统色散监测
2. Optical signal processing via two-photon absorption in a semiconductor microcavity for the next generation of high-speed optical communications network [J] . Maguire P.J., Barry L.P., Krug T., Journal of Lightwave Technology . 2006,第7期

机译：通过半导体微腔中的双光子吸收进行光信号处理，用于下一代高速光通信网络
3. Repeated wavelength conversion of 10 Gb/s signals and converted signal gating using wavelength-tunable semiconductor lasers [J] . Yasaka H., Sanjoh H. Journal of Lightwave Technology . 1996,第6期

机译：重复进行10 Gb / s信号的波长转换，并使用波长可调半导体激光器转换信号选通
4. High-Speed Chromatic Dispersion Monitoring of a Two-Channel WDM System using a single TPA Microcavity [C] . K. Bondarczuk, P. J. Maguire, L. P. Barry, Conference on Lasers and Electro-Optics . 2008

机译：使用单个TPA微腔的双通道WDM系统的高速色散监测
5. Frequency agile high-speed WDM applications of widely tunable semiconductor lasers. [D] . Lavrova, Olga Arkadevna. 2001

机译：广泛可调半导体激光器的频率捷变高速WDM应用。
6. High-speed and wide bandwidth Fourier domain mode-locked wavelength swept laser with multiple SOAs [O] . Min Yong Jeon, Jun Zhang, Qiang Wang, -1

机译：具有多个SOA的高速和宽带傅立叶域锁模波长扫频激光器
7. Chromatic dispersion monitoring for high-speed WDM systems using two-photon absorption in a semiconductor microcavity [O] . Bondarczuk, Krzysztof, Maguire, Paul J., Reid, Douglas A., 2009

机译：在半导体微腔中使用双光子吸收的高速WDM系统色散监测

Wavelength and Bandwidth Tunable TPA Semiconductor Microcavity Detector for High-Speed Signal Processing in WDM Systems

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