具有薄本征层的高量子效率ii型超晶格n结构光电探测器

Defense, Security, and Sensing Pub Date : 2013-06-11 DOI:10.1117/12.2016133

Y. Ergun, M. Hoştut, T. Tansel, A. Muti, A. Kılıç, R. Turan, A. Aydinli

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摘要

本文报道了基于InAs/AlSb/GaSb的n结构超晶格光电二极管的研制。在这种新设计中，InAs和GaSb层之间的AlSb层充当电子屏障，将电子和空穴波函数推向GaSb/InAs界面，在反向偏置下实现强重叠。实验结果表明，仅20个本禀层周期，在-50 mV偏置下的暗电流密度和动态电阻在77K下分别为6x10-3 A/cm2和148 Ωcm2。在零偏置下，在5 μm波长处获得1.2A/W的高光谱响应，50%截止波长(λc)为6 μm。采用这种新设计，仅146 nm厚i区的器件在3 μm处具有42%的量子效率，且采用正面照明且无增透涂层。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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High quantum efficiency Type-II superlattice N-structure photodetectors with thin intrinsic layers

We report on the development of InAs/AlSb/GaSb based N-structure superlattice pin photodiode. In this new design, AlSb layer in between InAs and GaSb layers acts as an electron barrier that pushes electron and hole wave functions towards the GaSb/InAs interface to perform strong overlap under reverse bias. Experimental results show that, with only 20 periods of intrinsic layers, dark current density and dynamic resistance at -50 mV bias are measured as 6x10-3 A/cm2 and 148 Ωcm2 at 77K, respectively. Under zero bias, high spectral response of 1.2A/W is obtained at 5 μm with 50% cut-off wavelengths (λc) of 6 μm. With this new design, devices with only 146 nm thick i-regions exhibit a quantum efficiency of 42% at 3 μm with front-side illimunation and no anti-reflection coatings.

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Defense, Security, and Sensing

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