电子、质子和中子辐照三结和单结InGaP/GaAs/Ge太阳能电池的NIEL剂量分析

R. Campesato, C. Baur, M. Carta, M. Casale, D. Chiesa, M. Gervasi, E. Gombia, E. Greco, Aldo Kingma, M. Nastasi, E. Previtali, P. Rancoita, D. Rozza, E. Santoro, M. Tacconi
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引用次数: 4

摘要

用电子、质子和中子辐照三结(InGaP/GaAs/Ge)和单结(SJ)太阳能电池。利用SR-NIEL(筛选相对论非电离能量损失)方法计算了诱发位移损伤剂量(DDD),分析了剩余因素的退化情况。特别地,这项工作的目的是分析由于中子辐照而引起的太阳能电池剩余因素的变化,相对于以前用电子和质子获得的因素。目前的分析证实,Pmax电参数的退化是通过通常的半经验表达式与位移剂量有关,而与入射粒子的类型无关。测定了Isc和Voc参数随位移损伤剂量的变化规律。此外,对中子辐照后具有与中间亚电池相同外延结构的二极管进行了DLTS分析。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
NIEL Dose Analysis on triple and single junction InGaP/GaAs/Ge solar cells irradiated with electrons, protons and neutrons
Triple junction (InGaP/GaAs/Ge) and single junction (SJ) solar cells were irradiated with electrons, protons and neutrons. The degradation of remaining factors was analyzed as function of the induced Displacement Damage Dose (DDD) calculated by means of the SR-NIEL (Screened Relativistic Non Ionizing Energy Loss) approach. In particular, the aim of this work is to analyze the variation of the solar cells remaining factors due to neutron irradiation with respect to those previously obtained with electrons and protons. The current analysis confirms that the degradation of the Pmax electrical parameter is related by means of the usual semi-empirical expression to the displacement dose, independently of type of the incoming particle. Isc and Voc parameters were also measured as a function of the displacement damage dose. Furthermore, a DLTS analysis was carried out on diodes –with the same epitaxial structure as the middle sub-cell - irradiated with neutrons.
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