화학공학소재연구정보센터
Applied Surface Science, Vol.395, 66-71, 2017
Radiation hardness of GaAs sensors against gamma-rays, neutrons and electrons
Radiation hardness of semi-insulating GaAs detectors against Co-60 gamma-rays, fast neutrons and 5 MeV electrons was compared. Slight improvements in charge collection efficiency (CCE) and energy resolution in FWHM (Full Width at Half Maximum) were observed at low doses with all kinds of radiation followed by their degradation. The effect occurred at a dose of about 10 Gy of neutrons (CCE improved by 1%, FWHM by 5% on average), at 1 kGy of electrons (FWHM decreased by 3% on average) and at 10 kGy of gamma-rays (CCE raised by 5% and FWHM dropped by 8% on average), which is in agreement with the relative displacement damage of the used types of radiation. Gamma-rays of MeV energies are 1000 times less damaging than similar neutrons and electrons about 10-times more damaging than photons. On irradiating the detectors with neutrons and electrons, we observed a global increase in their detection efficiency, which was caused probably by enlargement of the active detector area as a consequence of created radiation defects in the base material. Detectors were still functional after a dose of 1140 kGy of 1 MeV photons, 104 kGy of 5 MeV electrons but only up to 0.576 kGy of fast (similar to 2 to 30 MeV) neutrons. (C) 2016 Elsevier B.V. All rights reserved.