Dongpei Shen, Tong Sun, Pengfei Zhu, Xiaoning Guan, Baonan Jia, Hai-Xi Song, P. Lu
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引用次数: 0
Abstract
We designed a long-wave infrared detector using InAs/GaSb and InAs/GaSb/AlSb/GaSb superlattices and further studied the effect of some sensitive parameters on dark current characteristics. We utilize the numerical model to analyze the dark current characteristics of the contact layer and the absorption layer at different doping levels, and also calculate the dark current characteristics of the absorption layer and barrier layer at different thicknesses. By designing different absorption layer and barrier layer, we found that the detector has a hole barrier in the valence band, which effectively reducing the dark current level. Under the optimal detector structure, the dark current at low temperature is maintained at a relatively ideal level about 2.25×10-5 A/cm2 and the quantum efficiency is close to 42%.
利用InAs/GaSb和InAs/GaSb/AlSb/GaSb超晶格设计了长波红外探测器,并进一步研究了一些敏感参数对暗电流特性的影响。利用数值模型分析了不同掺杂水平下接触层和吸收层的暗电流特性,并计算了不同掺杂厚度下吸收层和阻挡层的暗电流特性。通过设计不同的吸收层和势垒层,我们发现探测器在价带有一个空穴势垒,有效地降低了暗电流水平。在最优的探测器结构下,低温暗电流维持在相对理想的水平,约2.25×10-5 a /cm2,量子效率接近42%。
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