Cladding Layer Impedance Reduction to Improve Microwave Propagation Properties in p-i-n Waveguides

Fang-Zheng Lin; Yi-Jen Chiu; Tsu-Hsiu Wu

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Cladding Layer Impedance Reduction to Improve Microwave Propagation Properties in p-i-n Waveguides

机译：降低包覆层阻抗以改善p-i-n波导中的微波传播特性

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The cladding layer effect on microwave propagation properties of semiconductor p-i-n waveguides is investigated in this letter. Through the optical excitation in quantum wells of p-i-n waveguides, high-speed photocurrent is used to examine the microwave propagation. Two devices of p-i-n waveguides with different cladding layers are fabricated and measured, showing that a higher speed is found in the waveguide of wider cladding width. Verified by the microwave propagation properties, the higher speed is mainly attributed to lower microwave propagation loss due to the lower impedance in the wider cladding layer, suggesting this kind of structure can be applied to high-speed waveguide-based devices

机译：本文研究了包覆层对半导体p-i-n波导微波传播特性的影响。通过p-i-n波导量子阱中的光激发，使用高速光电流检查微波的传播。制作并测量了两个具有不同包层的p-i-n波导器件，表明在较宽的包层宽度的波导中发现了更高的速度。通过微波传播特性的验证，较高的速度主要归因于较宽的包层中较低的阻抗，从而降低了微波传播损耗，这表明这种结构可应用于基于高速波导的器件

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来源
《IEEE Photonics Technology Letters》 |2007年第2007期|p.276-278|共3页
作者
Fang-Zheng Lin; Yi-Jen Chiu; Tsu-Hsiu Wu;
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作者单位

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类光电子技术、激光技术;计量学;
关键词
claddings; high-speed optical techniques; integrated optics; integrated optoelectronics; microwave photonics; microwave propagation; optical waveguides; quantum well devices; cladding layer impedance reduction; high-speed devices; high-speed photocurrent; microwave;

机译：包层;高速光学技术;集成光学;集成光电子学;微波光子学;微波传播;光波导;量子阱设备;降低包层阻抗;高速设备;高速光电流;微波;

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Cladding Layer Impedance Reduction to Improve Microwave Propagation Properties in p-i-n Waveguides

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