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Analysis of proton and γ-ray radiation effects on CMOS active pixel sensors 被引量:4

Analysis of proton and γ-ray radiation effects on CMOS active pixel sensors
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摘要 Radiation effects on complementary metal-oxide-semiconductor(CMOS) active pixel sensors(APS) induced by proton and γ-ray are presented. The samples are manufactured with the standards of 0.35 μm CMOS technology. Two samples have been irradiated un-biased by 23 MeV protons with fluences of 1.43 × 10^11 protons/cm^2 and 2.14 × 10^11 protons/cm-2,respectively, while another sample has been exposed un-biased to 65 krad(Si) ^60Co γ-ray. The influences of radiation on the dark current, fixed-pattern noise under illumination, quantum efficiency, and conversion gain of the samples are investigated. The dark current, which increases drastically, is obtained by the theory based on thermal generation and the trap induced upon the irradiation. Both γ-ray and proton irradiation increase the non-uniformity of the signal, but the nonuniformity induced by protons is even worse. The degradation mechanisms of CMOS APS image sensors are analyzed,especially for the interaction induced by proton displacement damage and total ion dose(TID) damage. Radiation effects on complementary metal-oxide-semiconductor(CMOS) active pixel sensors(APS) induced by proton and γ-ray are presented. The samples are manufactured with the standards of 0.35 μm CMOS technology. Two samples have been irradiated un-biased by 23 MeV protons with fluences of 1.43 × 10^11 protons/cm^2 and 2.14 × 10^11 protons/cm-2,respectively, while another sample has been exposed un-biased to 65 krad(Si) ^60Co γ-ray. The influences of radiation on the dark current, fixed-pattern noise under illumination, quantum efficiency, and conversion gain of the samples are investigated. The dark current, which increases drastically, is obtained by the theory based on thermal generation and the trap induced upon the irradiation. Both γ-ray and proton irradiation increase the non-uniformity of the signal, but the nonuniformity induced by protons is even worse. The degradation mechanisms of CMOS APS image sensors are analyzed,especially for the interaction induced by proton displacement damage and total ion dose(TID) damage.
出处 《Chinese Physics B》 SCIE EI CAS CSCD 2017年第11期264-268,共5页 中国物理B(英文版)
基金 Project supported the National Natural Science Foundation of China(Grant No.11675259) the West Light Foundation of the Chinese Academy of Sciences(Grant Nos.XBBS201316,2016-QNXZ-B-2,and 2016-QNXZ-B-8) Young Talent Training Project of Science and Technology,Xinjiang,China(Grant No.qn2015yx035)
关键词 complementary metal-oxide-semiconductor(CMOS) active pixel sensor dark current fixedpattern noise quantum efficiency complementary metal-oxide-semiconductor(CMOS) active pixel sensor dark current fixedpattern noise quantum efficiency
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