Title :
Gamma radiation sensing properties of NiO thick film pn-junctions
Author :
Korostynska, Olga ; Arshak, Khalil ; Mahon, Michael
Author_Institution :
Dept. of Electron. & Comput. Eng., Limerick Univ., Ireland
Abstract :
The aim of this work is to develop a novel sensor for gamma radiation with instantaneous dosage readout. Thick films based on nickel oxide (NiO), that are the key sensing element in the proposed approach, were screen-printed on N(111) Si wafers to form pn-junctions. Carbon doping was used to control the conductivity of NiO thick films. All devices were exposed to a disc-type 137Cs source with an activity of 370 kBq. The values of radiation damage in pn-junctions were estimated from changes in their current-voltage characteristics. They showed an increase in the values of current with the increase in radiation dose up to certain levels, exceeding these levels results in unstable dosimetric characteristics. Performance parameters of the devices, such as sensitivity to γ-radiation exposure and working dose region, were found to be highly dependent on the composition of the materials used.
Keywords :
caesium; doping; gamma-ray detection; gamma-ray effects; nickel compounds; p-n junctions; readout electronics; semiconductor materials; thick films; γ-radiation exposure; 137Cs; C; N 111 Si wafer; NiO; NiO thick film pn-junctions; carbon doping; current-voltage characteristics; disc-type 137Cs source; gamma radiation sensing properties; instantaneous dosage readout; nickel oxide; radiation damage; radiation dose; screen printing; sensing element; unstable dosimetric characteristics; working dose region; Chemical elements; Composite materials; Conductivity; Current-voltage characteristics; Doping; Gamma ray detectors; Gamma rays; Nickel; Thick films; Thickness control;
Conference_Titel :
Sensors, 2003. Proceedings of IEEE
Print_ISBN :
0-7803-8133-5
DOI :
10.1109/ICSENS.2003.1278900
