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Change in the electrical performance of InGaAs quantum dot solar cells due to irradiation

Oshima, Takeshi; Sato, Shinichiro; Morioka, Chiharu*; Imaizumi, Mitsuru*; Sugaya, Takeyoshi*; Niki, Shigeru*

Quantum Dot (QD) solar cells are regarded as promising candidate for solar cells with superior high efficiency. For space application, it is important to understand radiation effects in such QD solar cells. However, radiation response of QD solar cells has not yet been clarified. In this study, we irradiate QD solar cells with electrons, and investigate change in the electrical performance of the QD solar cells. PiN structure solar cells with self-organized InGaAs QD layers grown on GaAs (001) substrates by MBE were used in this study. The efficiency for the 30 QD layer solar cells without anti-reflector coating is 7.0% under AM 1.5 at 25 $$^{circ}$$C. The samples were irradiated with electrons at 1 MeV at room temperature. The current-voltage characteristics under AM0 and the quantum efficiency (QE) were measured before and after irradiations. Electron irradiation effects on single junction GaAs solar cells fabricated under the same process were also studied for comparison. The value of QE for both the GaAs solar cells with and without QD layers slightly decreases due to the irradiation at 1$$times$$10$$^{13}$$/cm$$^{2}$$, and no remarkable decrease in the increment of the QE in a long wavelength region due to the existence of QDs is observed.

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