谐振腔雪崩光电二极管和窄光谱响应光电二极管

Proceedings IEEE/Cornell Conference on Advanced Concepts in High Speed Semiconductor Devices and Circuits Pub Date : 1995-08-07 DOI:10.1109/CORNEL.1995.482524

S. Murtaza, K. Anselm, I. Tan, R. Chelakara, M.R. Islam, R. Dupuis, B. Streetman, J. Bowers, E. Hu, J. Campbell

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引用次数: 5

摘要

高速、高外量子效率、窄谱线宽和方便的耦合使谐振腔光电探测器(RECAPs)成为电信应用的良好候选者。本文报道了一种高效、波长选择性分离吸收倍增(SAM)雪崩光电二极管(APD)，其薄吸收层(500 /spl)。通过将吸收层和倍增层放置在法布里-珀罗腔中，光电探测器的特性得到了改善。在光谱线宽度小于4 nm，雪崩增益大于50的情况下，实现了77%的外量子效率。我们还介绍了具有工作波长/spl λ //sub / 0//spl ap/1.3 /spl mu/m且光谱响应非常窄的RECAP的实验结果。吸收发生在放置在InP腔中的in /sub 0.53/Ga/sub 0.47/As薄层中。将InP p-i-n结构与高反射率GaAs-AlAs四分之一波长Bragg反射器晶圆结合。顶镜由三对ZnSe-CaF/sub - 2/四分之一波长叠加(QWS)组成。光谱线宽度为1.8 nm，外量子效率为48%。

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Resonant-cavity avalanche photodiodes and narrow spectral response photodiodes

High speeds, high external quantum efficiencies, narrow spectral linewidths, and convenience in coupling make resonant-cavity photodetectors (RECAPs) good candidates for telecommunication applications. In this paper, we report a highly-efficient and wavelength-selective separate absorption and multiplication (SAM) avalanche photodiode (APD) with a thin (500 /spl Aring/) absorbing layer. The improved characteristics of the photodetector were obtained by placing the absorption and multiplication layers in a Fabry-Perot cavity. An external quantum efficiency of 77% was achieved with a spectral linewidth of less than 4 nm and an avalanche gain of more than 50. We also present the experimental results on a RECAP having an operating wavelength /spl lambda//sub 0//spl ap/1.3 /spl mu/m with a very narrow spectral response. The absorption takes place in a thin In/sub 0.53/Ga/sub 0.47/As layer placed in an InP cavity. The InP p-i-n structure was wafer bonded to a high-reflectivity GaAs-AlAs quarter-wavelength Bragg reflector. The top mirror consisted of three pairs of a ZnSe-CaF/sub 2/ quarter-wavelength stack (QWS). A spectral linewidth of 1.8 nm was obtained with an external quantum efficiency of 48%.

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Proceedings IEEE/Cornell Conference on Advanced Concepts in High Speed Semiconductor Devices and Circuits

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