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Nondegenerate four-wave mixing wavelength conversion in low-loss passive InGaAsP/InP waveguides

机译：低损耗无源InGaAsP / InP波导中的简并四波混频波长转换

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Wavelength conversion devices (WCD), which allow the transcription of information carried on one set of optical wavelengths onto another, are useful for wavelength division multiplexing optical networks. A common approach is to utilize nondegenerate four-wave mixing (FWM) in semiconductor optical amplifiers or dispersion-shifted silica fibers. Here we describe FWM in passive InGaAsP/InP quantum-well waveguides using the near-bandedge excitonic resonance nonlinearity. Compared with FWM in active semiconductors, passive semiconductors require higher optical pump power, but are simpler, do not depend on free-carrier effects, and therefore have the potential advantage of simultaneous ultrahigh speed and broadband direct optical-to-optical conversion. Compared to silica fibers, semiconductors have several orders of magnitude lower latency, and have the potential for compact, monolithic integration.

机译：允许将一组光波长上携带的信息转录到另一组上的波长转换设备（WCD）可用于波分复用光网络。一种常见的方法是在半导体光放大器或色散位移石英光纤中使用非简并四波混频（FWM）。在这里，我们描述了使用近带激子共振非线性的无源InGaAsP / InP量子阱波导中的FWM。与有源半导体中的FWM相比，无源半导体需要更高的光泵浦功率，但更简单，不依赖于自由载流子效应，因此具有同时超高速和宽带直接光电转换的潜在优势。与石英纤维相比，半导体的等待时间要短几个数量级，并且具有紧凑，单片集成的潜力。

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《》|1994年|P.330-331|共2页
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Donnelly; J.P.; Le; H.Q.;
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中图分类无线电电子学、电信技术;
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1. Nondegenerate four-wave mixing wavelength conversion in low-loss passive InGaAsP-InP quantum-well waveguides [J] . Donnelly J.P., Le H.Q. IEEE Photonics Technology Letters . 1996,第5期

机译：低损耗无源InGaAsP-InP量子阱波导中的简并四波混频波长转换
2. THz optical-frequency conversion of 1 Gb/s-signals using highly nondegenerate four-wave mixing in an InGaAsP semiconductor laser [J] . Murata S., Tomita A. IEEE Photonics Technology Letters . 1991,第11期

机译：在InGaAsP半导体激光器中使用高度非简并四波混频进行1 Gb / s信号的THz光频率转换
3. Proton bombardment for enhanced four-wave mixing in InGaAsP-InP waveguides [J] . Thoen E.R., Donnelly J.P. IEEE Photonics Technology Letters . 2000,第3期

机译：质子轰击增强InGaAsP-InP波导中的四波混合
4. Nondegenerate four-wave mixing wavelength conversion in low-loss passive InGaAsP/InP waveguides [C] . Donnelly J.P., Le H.Q., Institute of Electric and Electronic Engineer Lasers and Electro-Optics Society Annual Meeting . 1994

机译：在低损耗无源IngaAsP / InP波导中非备合四波混合波长转换
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. Experimentally validated full-vectorial model of wavelength multicasting via four-wave mixing in straight waveguides [O] . Kai Guo, Jiacheng Feng, Xiaodong Shi, -1

机译：经过实验验证的直波导中四波混频波长多播的全矢量模型
7. Wavelength conversion by four wave mixing in passive InGaAsP/InP waveguides [O] . Darwish Ali Mohamed 1996

机译：在无源InGaasp / Inp波导中通过四波混频进行波长转换
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

Nondegenerate four-wave mixing wavelength conversion in low-loss passive InGaAsP/InP waveguides

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