High-frequency InP/InGaAs pin photodiodes with efficient response at short wavelengths

V. Diadiuk, S. Alexander, S. Groves, D. Spears
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引用次数: 1

Abstract

It is shown that InP-based pin photodiodes can be operated at high frequency with high quantum efficiency over a broad range of wavelengths (0.6-1.6 mu m). Good window layers for high-speed detectors can be made with n/sup ++/ InP for two reasons: the high carrier concentration enables low sheet resistance to be obtained with very thin layers, and the Burstein-Moss effect significantly reduces the absorption coefficient of the layer in the lambda =0.7-0.9 mu m range. This provides a low-resistance cap layer that is highly transparent over the lambda =0.7-1.6 mu m range and is lattice-matched to the InGaAs(P) active layer. At lambda =0.86 mu m, the detectors demonstrate a flat heterodyne response up to 3 GHz, with 3-dB roll-off of 8 GHz and DC quantum efficiency of approximately 80%. Their current-carrying capability makes them attractive for use in systems that require high local-oscillator power. The detectors are well suited for use with all the semiconductor laser sources available the traditional AlGaAs/GaAs and InP/InGaAsP as well as the new, strained-layer, quantum-well InGaAs/AlGaAs/GaAs and InGaAs/InGaP/GaAs lasers.<>
短波响应高效的高频InP/InGaAs引脚光电二极管
结果表明,基于InP的引脚光电二极管可以在宽波长范围(0.6-1.6 μ m)内以高量子效率在高频下工作。n/sup ++/ InP可以制作出高速探测器的良好窗口层,原因有二:高载流子浓度使得极薄层具有低片阻,并且在λ =0.7-0.9 μ m范围内,Burstein-Moss效应显著降低了层的吸收系数。这提供了一个低电阻帽层,在λ =0.7-1.6 μ m范围内高度透明,并且与InGaAs(P)有源层晶格匹配。在λ =0.86 μ m时,探测器显示出高达3 GHz的平坦外差响应,3- db滚降为8 GHz,直流量子效率约为80%。它们的载流能力使它们在需要高本地振荡器功率的系统中具有吸引力。该探测器非常适合与所有可用的半导体激光源一起使用,包括传统的AlGaAs/GaAs和InP/InGaAsP,以及新的应变层量子阱InGaAs/AlGaAs/GaAs和InGaAs/InGaP/GaAs激光器。
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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