论文信息 - Electrical properties and charge collection efficiency for neutron-irradiated p-type and n-type silicon detectors

Electrical properties and charge collection efficiency for neutron-irradiated p-type and n-type silicon detectors

Ion-implanted n-type and p-type detectors have been irradiated with neutrons of ∼ 1 MeV up to a fluence of 1014 cm−2. From I-V and C-V measurements the reverse current and the full depletion voltage have been determined at successive levels of neutron fluence. The effective doping concentration versus fluence and the reverse current damage coefficient are presented. Room temperature annealing after the irradiation is discussed. At successive levels of neutron fluence, the shape of the current pulse induced by relativistic electrons and α particles has been studied using a fast current amplifier. For a detector irradiated up to 1.1 1014 n cm−2 and biased at ∼ 20% above the depletion voltage, the charge collection deficit for ∼ 2 MeV electrons is <20% for an integration time of 15 ns. For α particles the current pulse is different for front and rear side incidence and its shape changes with neutron fluence. This shape is related to the electric field inside the detector and therefore provides another way to determine the neutron-induced effective impurity concentration.

[1] Zheng Li,et al. The use of the signal current pulse shape to study the internal electric field profile and trapping effects in neutron damaged silicon detectors , 1993 .

[2] N. Croitoru,et al. Radiation hardness of silicon detectors for future colliders , 1993 .

[3] D. Pitzl,et al. Type inversion in silicon detectors , 1992 .

[4] N. Croitoru,et al. Results on radiation hardness of silicon detectors up to neutron fluences of 1015 n/cm2☆ , 1992 .

[5] M. Glaser,et al. Neutron-induced radiation damage in silicon detectors , 1991, Conference Record of the 1991 IEEE Nuclear Science Symposium and Medical Imaging Conference.

[6] N. Croitoru,et al. Radiation damage of silicon detectors by monoenergetic neutrons and electrons , 1991 .

[7] E. Gatti,et al. ON THE INDUCED CHARGE IN SEMICONDUCTOR DETECTORS , 1963 .

[8] Pierre Jarron,et al. Measurements of degradation of silicon detectors and electronics in various radiation environments , 1990 .

[9] P. Jarron. Fast silicon detector systems for high luminosity hadron collider experiments , 1989 .

[10] C. Leroy,et al. Study of operating condition of semiconductors for calorimetry in LHC/SSC radiation environment , 1991 .

[11] G. Moorhead,et al. Neutron irradiation of silicon diodes at temperatures of +20°C and −20°C , 1993 .

[12] Veljko Radeka,et al. LOW-NOISE TECHNIQUES IN DETECTORS , 1988 .