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Proton radiation analysis of multi-junction space solar cells

宇宙用三接合型太陽電池の陽子線照射解析

住田 泰史*; 今泉 充*; 松田 純夫*; 大島 武; 大井 暁彦; 伊藤 久義

Sumita, Taishi*; Imaizumi, Mitsuru*; Matsuda, Sumio*; Oshima, Takeshi; Oi, Akihiko; Ito, Hisayoshi

宇宙用に開発された三接合型(InGaP/GaAs/Ge)太陽電池の陽子線照射効果を明らかにするため、20keVから10MeVのエネルギー範囲の陽子線を照射し、電気的・光学的特性の変化を調べた。モンテカルロシュミレーションより見積もった陽子線の侵入長を考慮して特性劣化を解析した結果、ミドルセルであるGaAsセルの接合付近が陽子線の侵入長にあたる場合に最も特性の劣化が大きいことを見出した。このことより耐放射線性のさらなる向上にはGaAsミドルセルの耐放射線性向上が重要であると結論できた。

Proton irradiation effects of triple-junction (InGaP/GaAs/Ge) solar cells for space use were studied. The changes in electrical and optical properties of the solar cells irradiated with protons at energies between 20 keV and 10 MeV were examined. As the result of analyzing the relationship between proton projection range and the degradation of their properties, the largest degradation of the properties was observed when proton projection range is near the junction of GaAs sub-cells. This indicates that improvement of the radiation resistance of GaAs is necessary to enhance radiation resistance of tliple-junction solar cells.

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