Effect of Coupled Double-Quantum-Well Design on Pump-Induced Refractive-Index Change in AlAsSb–InGaAs–AlAs Optical Waveguides

Lim C.G.

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Effect of Coupled Double-Quantum-Well Design on Pump-Induced Refractive-Index Change in AlAsSb–InGaAs–AlAs Optical Waveguides

机译：双量子阱耦合设计对AlAsSb–InGaAs–AlAs光波导中泵浦诱导的折射率变化的影响

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Optimization of the AlAsSb-InGaAs-AlAs coupled double-quantum-wells in optical waveguide core for optimal pump-induced refractive-index change indicates that thin AlAs center barrier leads to larger refractive-index change, and the InGaAs double-quantum-wells have an optimum thickness of which maximum refractive-index change is obtained. Analysis shows that the cross phase-modulation efficiency of these optical waveguides is highly dependent on optical confinement and is limited to approximately 0.05 rad/pJ in the 1550 nm region as far as the cross phase-modulation based on free-carrier mass dispersion effect is concerned.

机译：通过优化光波导纤芯中的AlAsSb-InGaAs-AlAs耦合双量子阱以优化泵浦引起的折射率变化，表明薄的AlAs中心势垒会导致较大的折射率变化，而InGaAs双量子阱具有获得最大折射率变化的最佳厚度。分析表明，这些光波导的交叉相位调制效率高度依赖于光学限制，并且在1550 nm范围内，只要基于自由载流子质量分散效应的交叉相位调制被限制在0.05 rad / pJ左右即可。关心。

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《IEEE Journal of Quantum Electronics》 |2008年第11期|p.1003-1008|共6页
作者
Lim C.G.;
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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
中图分类激光技术、微波激射技术;计量学;
关键词
III-V semiconductors; aluminium compounds; gallium arsenide; indium compounds; integrated optics; optical dispersion; optical modulation; optical pumping; optical waveguides; phase modulation; quantum well devices; refractive index; AlAsSb-InGaAs-AlAs; AlAsSb-InGaAs-;

机译：III-V半导体;铝化合物;砷化镓;铟化合物;集成光学;光学色散;光学调制;光学泵浦;光波导;相位调制;量子阱器件;折射率;AlAsSb-InGaAs-AlAs;AlAsSb-InGaAs-;
入库时间 2022-08-17 13:27:10

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Effect of Coupled Double-Quantum-Well Design on Pump-Induced Refractive-Index Change in AlAsSb–InGaAs–AlAs Optical Waveguides

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