基于GaInAs量子阱带填充效应的高灵敏度光调制器

International Conference on Indium Phosphide and Related Materials Pub Date : 1990-04-23 DOI:10.1109/ICIPRM.1990.203062

T. Chang, J. Zucker, K.L. Jones, N. Sauer, B. Tell, M. Wegener, D. Chemla

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引用次数: 1

摘要

利用封闭储层和量子阱电子转移结构(BRAQWETS)中的带填充效应，在单片马赫-曾达干涉仪中实现了产生180度相移所需的极低电压-长度积(2.1 V-mm)。BRAQWETS调制器的高灵敏度、高速度、良好的线性度和低啁啾使其成为光波应用的有吸引力的器件。所使用的结构包含5到8个周期的BRAQWETS，每个BRAQWETS具有n掺杂的电子库和未掺杂的AlGaInAs间隔层(1-eV带隙)，GaInAs量子阱和AlInAs阻挡势垒。该波导核心被氮掺杂的AlInAs包层所包围。在这种n-i-n结构中，由于AlInAs和GaInAs之间存在较大的导电带不连续(0.52 eV)，因此在偏置下的漏电流仍然很低。

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Very high sensitivity optical modulators based on band filling effect in GaInAs quantum wells

The band-filling effect in a blockaded reservoir and quantum-well electron transfer structure (BRAQWETS) was used to achieve the very low voltage-length product (2.1 V-mm) needed to produce a 180 degrees phase shift in a monolithic Mach-Zehnder interferometer. The high sensitivity, high speed, good linearity, and low chirp of the BRAQWETS modulator make it an attractive device for lightwave applications. The structures used contain five to eight periods of BRAQWETS each with an n-doped electron reservoir and an undoped spacer layer of AlGaInAs (1-eV bandgap), a GaInAs quantum well, and an AlInAs blocking barrier. This waveguide core is surrounded by n-doped cladding layers of AlInAs. The leakage current under bias in this n-i-n structure remains low owing to the large conduction-band discontinuity (0.52 eV) available between AlInAs and GaInAs.<>

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International Conference on Indium Phosphide and Related Materials

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