Silicon junction field effect transistors(JFETs) have been exposed to Co-(60)-rays to study radiationinduced effects on their dc characteristics and noise. The devices have been irradiated and measured at room tem...Silicon junction field effect transistors(JFETs) have been exposed to Co-(60)-rays to study radiationinduced effects on their dc characteristics and noise. The devices have been irradiated and measured at room temperature up to an accumulated 100 krad(Si) dose of radiation at a dose rate of 0.1 rad(Si)/s. During irradiation,the generation–recombination(g–r) noise increase has been observed while the dc characteristics of the transistors were kept unchanged. The increasing of the density of the same type point defects and their probability of trapping and detrapping carriers caused by irradiation have been used to explain the g–r noise amplitude increase, while the g–r noise characteristic frequency has only a slight change.展开更多
基金Project supported by the National Natural Science Foundation of China(Nos.61076101,61204092)the Fundamental Research Funds for the Central Universities(No.JB150412)
文摘Silicon junction field effect transistors(JFETs) have been exposed to Co-(60)-rays to study radiationinduced effects on their dc characteristics and noise. The devices have been irradiated and measured at room temperature up to an accumulated 100 krad(Si) dose of radiation at a dose rate of 0.1 rad(Si)/s. During irradiation,the generation–recombination(g–r) noise increase has been observed while the dc characteristics of the transistors were kept unchanged. The increasing of the density of the same type point defects and their probability of trapping and detrapping carriers caused by irradiation have been used to explain the g–r noise amplitude increase, while the g–r noise characteristic frequency has only a slight change.
