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Integrated nano-structured silicon waveguides and devices for high-speed optical communications

Integrated nano-structured silicon waveguides and devices for high-speed optical communications
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摘要 With progress in fabrication technology, integrated photonics plays an increasingly important role in high-speed optical communications, from monolithic transmitters and receivers for advanced optical modulation formats to on-chip subsystems for optical signal processing. We review our recent work on the highly tailorable physical properties of silicon waveguides for communication and signal processing applications, using slot structures. Controllable chromatic dispersion, nonlinearity, and polarization properties of the waveguides are presented, and the enabled wideband wavelength conversion, optical tunable delay, and signal processing of polarization-multiplexing data channels are discussed. With progress in fabrication technology, integrated photonics plays an increasingly important role in high-speed optical communications, from monolithic transmitters and receivers for advanced optical modulation formats to on-chip subsystems for optical signal processing. We review our recent work on the highly tailorable physical properties of silicon waveguides for communication and signal processing applications, using slot structures. Controllable chromatic dispersion, nonlinearity, and polarization properties of the waveguides are presented, and the enabled wideband wavelength conversion, optical tunable delay, and signal processing of polarization-multiplexing data channels are discussed.
作者 Alan E. Willner 张林 岳洋 武晓霞
机构地区 Department of Electrical Engineering
出处 《Chinese Optics Letters》 SCIE EI CAS CSCD 2010年第9期909-917,共9页 中国光学快报(英文版)
基金 research work sponsored by DARPA (under contract number HR0011-09-C-0124)and HP Laboratories
关键词 MODE Integrated nano-structured silicon waveguides and devices for high-speed optical communications HIGH
分类号 TN252 [电子电信—物理电子学]
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Chinese Optics Letters
2010年 第9期

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