Proposed GaAs and Si OPFET Photodetectors for Solar Cell Applications

J. Gaitonde, R. Lohani
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Abstract

The potential of the GaAs and Si-based Optical Field Effect Transistor (OPFET) photodetectors for use in solar cell applications has been examined. The solar power spectrum with the air mass (AM0) suitable for satellite and space vehicle applications is provided as an input. The detectors closely reproduce the input spectrum while delivering sufficient output current with high responsivity, External Quantum Efficiency (EQE), and low switching times. These parameters along with the photovoltage generated as a function of wavelength are plotted and deeply analyzed. The comparative study of the Si and the GaAs OPFET detectors is presented. The analysis is based on the structural, material parameters, and the external factors applied. The gate materials utilized are Indium-Tin-Oxide (ITO) for Si and gold (Au) for GaAs. Two distinct illumination models: Buried-gate front-illuminated OPFET and the generalized model of OPFET are being considered for the study. The proposed devices show great potential for solar cell applications.
应用于太阳能电池的GaAs和Si OPFET光电探测器
研究了砷化镓和硅基光场效应晶体管(OPFET)光电探测器在太阳能电池中的应用潜力。提供了适合卫星和航天器应用的空气质量(AM0)的太阳能功率谱作为输入。探测器紧密再现输入光谱,同时提供足够的输出电流,具有高响应性,外部量子效率(EQE)和低开关时间。并对这些参数与光电压随波长的变化关系进行了分析。对Si和GaAs OPFET探测器进行了比较研究。分析是基于结构,材料参数和外部因素的应用。栅极材料采用铟锡氧化物(ITO)作为Si栅极材料,金(Au)作为GaAs栅极材料。两种不同的照明模型:埋门前照明OPFET和OPFET的广义模型被考虑用于研究。所提出的器件显示出太阳能电池应用的巨大潜力。
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