Theoretical D* Optimization of N+-p Pb1-xSnxSe Long-Wavelength (8 - 11 μm) Photovoltaic Detector at 77 K

Theoretical D* Optimization of N+-p Pb1-xSnxSe Long-Wavelength (8 - 11 μm) Photovoltaic Detector at 77 K

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摘要 In this work, the study of the influences of lifetime, doping concentration and absorption layer thickness to resistant- area product (R0A) and quantum efficiency of Pb1-xSnxSe photovoltaic detector are presented. Three fundamental current mechanisms including diffusion, generation-recombination, and tunneling models are considered. Using optimal doping concentration and absorption layer thickness parameters, the calculated detectivity (D*) of Pb1-xSnxSe photovoltaic detector is over 1012 cm Hz1/2/W. In this work, the study of the influences of lifetime, doping concentration and absorption layer thickness to resistant- area product (R0A) and quantum efficiency of Pb1-xSnxSe photovoltaic detector are presented. Three fundamental current mechanisms including diffusion, generation-recombination, and tunneling models are considered. Using optimal doping concentration and absorption layer thickness parameters, the calculated detectivity (D*) of Pb1-xSnxSe photovoltaic detector is over 1012 cm Hz1/2/W.

作者 Binbin Weng Jijun Qiu Lihua Zhao Caleb Chang Zhisheng Shi

机构地区 The School of Electrical and Computer Engineering

出处《Detection》 2014年第1期1-6,共6页 检测（英文）

关键词 Pb1-xSnxSe Lifetime Resistant-Area Product Quantum Efficiency DETECTIVITY Pb1-xSnxSe Lifetime Resistant-Area Product Quantum Efficiency Detectivity

分类号 R73 [医药卫生—肿瘤]

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Theoretical D* Optimization of N+-p Pb<sub>1-x</sub>Sn<sub>x</sub>Se Long-Wavelength (8 - 11 μm) Photovoltaic Detector at 77 K

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Theoretical D* Optimization of N+-p Pb&lt;sub&gt;1-x&lt;/sub&gt;Sn&lt;sub&gt;x&lt;/sub&gt;Se Long-Wavelength (8 - 11 μm) Photovoltaic Detector at 77 K

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Theoretical D* Optimization of N+-p Pb<sub>1-x</sub>Sn<sub>x</sub>Se Long-Wavelength (8 - 11 μm) Photovoltaic Detector at 77 K