Wavelength Conversion Based on Raman- and Non-Resonant Four-Wave Mixing in Silicon Nanowire Rings Without Dispersion Engineering

Vermeulen N.; Sipe J. E.; Lefevre Y.; Debaes C.; Thienpont H.

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Wavelength Conversion Based on Raman- and Non-Resonant Four-Wave Mixing in Silicon Nanowire Rings Without Dispersion Engineering

机译：无需色散工程的硅纳米线环中基于拉曼和非谐振四波混频的波长转换

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摘要

We propose an efficient wavelength conversion scheme that is based on either Raman-resonant four-wave mixing or non-resonant Kerr-induced four-wave mixing in a silicon nanowire ring, and that does not require dispersion engineering of the nanowire. We rely on the spatial variation of the Raman and Kerr susceptibilities around the ring to quasi-phase match the wavelength conversion processes for TE polarized fields. The flexibility of this quasi-phase-matching scheme can lead to wavelength conversion efficiencies from –26.7 dB to values larger than 0 dB, and in certain circumstances makes it possible to outperform conventional phase-matched conversion in a dispersion-engineered silicon ring by factors exceeding 6 dB.

机译：我们提出了一种有效的波长转换方案，该方案基于在硅纳米线环中的拉曼共振四波混合或非共振克尔诱导的四波混合，并且不需要纳米线的色散工程。我们依靠环周围的拉曼和克尔磁化率的空间变化来准相位匹配TE偏振场的波长转换过程。这种准相位匹配方案的灵活性可以导致波长转换效率从–26.7 dB到大于0 dB的值，并且在某些情况下，可以使色散设计的硅环中的传统相位匹配转换性能降低两倍。超过6 dB。

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来源
《Selected Topics in Quantum Electronics, IEEE Journal of》 |2011年第4期|p.1078-1091|共14页
作者
Vermeulen N.; Sipe J. E.; Lefevre Y.; Debaes C.; Thienpont H.;
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作者单位

Brussels Photonics Team, Department of Applied Physics and Photonics, Vrije Universiteit Brussel, Belgium;

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正文语种 eng
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Frequency conversion; Raman scattering; optical mixing; phase matching; silicon;

机译：变频;拉曼散射;光混频;相位匹配;硅;

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1. Power-attenuated optimization for four-wave mixing-based wavelength conversion in silicon nanowire waveguides [J] . Gao S.M., Li Z.Q., Zhang X.Z. Journal of Electromagnetic Waves and Applications . 2010,第8a9期

机译：硅纳米线波导中基于四波混合的波长转换的功率衰减优化
2. All-Optical Wavelength Conversion Based on Four-Wave Mixing in Dispersion-Engineered Silicon Nanowaveguides [J] . Wang Zhaolu, Liu Hongjun, Sun Qibing, Journal of Russian laser research . 2017,第2期

机译：色散工程硅纳米波导中基于四波混频的全光波长转换
3. Modified model for four-wave mixing-based wavelength conversion in silicon micro-ring resonators [J] . Zhiqiang Li, Shiming Gao, Qiang Liu, Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter . 2011,第8期

机译：硅微环谐振器中基于四波混合的波长转换的修改模型
4. Efficient four-wave-mixing-based wavelength conversion in silicon nanowire rings without dispersion engineering [C] . N. Vermeulen, Y. Lefevre, C. Debaes, Silicon photonics and photonic integrated circuits III. . 2012

机译：无需色散工程的硅纳米线环中基于四波混频的高效波长转换
5. Investigation of wavelength conversion by four-wave mixing in semiconductor optical amplifiers. [D] . Geraghty, David Francis. 1997

机译：研究半导体光放大器中四波混频的波长转换。
6. Travelling-wave resonant four-wave mixing breaks the limits of cavity-enhanced all-optical wavelength conversion [O] . Francesco Morichetti, Antonio Canciamilla, Carlo Ferrari, -1

机译：行波谐振四波混合打破了腔增强全光波长转换的限制
7. Polarization Insensitive Wavelength Conversion Based on Four-Wave Mixing in a Silicon Nanowire [O] . Pu Minhao, Hu Hao, Peucheret Christophe, 2012

机译：硅纳米线中基于四波混频的偏振不敏感波长转换
8. Nondegenerate Four-Wave Mixing Wavelength Conversion in Low-Loss Passive InGaAsP-InP Quantum-Well Waveguides [R] . Donnelly, J. P., Le, H. Q., Swanson, E. A., 1996

机译：低损耗无源InGaasp-Inp量子阱波导中的非简并四波混频波长转换

Wavelength Conversion Based on Raman- and Non-Resonant Four-Wave Mixing in Silicon Nanowire Rings Without Dispersion Engineering

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