Irradiation effect on the electrical characteristics of an AlGaAs/GaAs based solar cell: Comparison between electron and proton irradiation by numerical simulation

•Electron and proton irradiation of solar cells have comparable effects on the solar cell efficiency.•They have different effects on the short circuit current and the open voltage.•The use of of a gradual gap AlxGa1−xAs window improves the resistivity of the cell to electron and proton irradiation....

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Published in:Superlattices and microstructures Vol. 58; pp. 44 - 52
Main Authors: Laiadi, W., Meftah, Af, Sengouga, N., Meftah, Am
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-06-2013
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Summary:•Electron and proton irradiation of solar cells have comparable effects on the solar cell efficiency.•They have different effects on the short circuit current and the open voltage.•The use of of a gradual gap AlxGa1−xAs window improves the resistivity of the cell to electron and proton irradiation. In this work we use numerical simulation to make a comparison between the effect of electron and proton irradiation on the current voltage (J–V) characteristics of a GaAs based solar cell. This is an extension of a previous work in which we have demonstrated that the use of a gradual gap AlxGa1−xAs window improves the resistivity of the cell to electron irradiation. In this paper we use the gradual gap AlxGa1−x layer as window material on the top of the GaAs cell and we study the effect of its thickness on the output parameters of the cell exposed to 1MeV electron and proton irradiation. The external cell parameters are: the short circuit current (Jsc), the open circuit voltage (Voc), the fill factor (FF) and the conversion efficiency (η). Our results show that Jsc is more sensitive to electron irradiation while Voc is a little bit more sensitive to proton irradiation. This gives nearly the same effect of the two types of irradiation on the conversion efficiency of the cell. We found also that the increase of the gradual AlxGa1−xAs window thickness from 0.09 to 0.3μm improves the resistivity of the solar cell to irradiation.
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ISSN:0749-6036
1096-3677
DOI:10.1016/j.spmi.2013.03.005