Title :
Properties of melt-grown ZnSe solid-state radiation detectors
Author :
Eissler, E.E. ; Lynn, K.G.
Author_Institution :
eV Products, Saxonburg, PA, USA
fDate :
8/1/1995 12:00:00 AM
Abstract :
Zinc Selenide (ZnSe) crystals grown using the High Pressure Bridgman (HPB) technique were used to fabricate solid-state radiation detectors measuring 10×10×2 mm3 Sputtered platinum and gold contacts were applied to polished detector blanks. Voltage versus current characteristics were determined for the devices at 25°C. Pulse height spectra were obtained using 241Am and 109Cd at both 25°C and 150°C with applied bias of 9000 V/cm. Current versus temperature was measured over the temperature range of 30°C to 150°C. Performance was measured at energies of 22.1 and 59.5 keV over a temperature range of -70°C to 170°C. Current versus dose rate was measured with 662 keV gamma irradiation. A value of the Mobility-Lifetime product (μτ) for electrons was estimated. Time and temperature dependence of photo-peak position using Pulse Height Analysis (PHA) was studied
Keywords :
X-ray detection; gamma-ray detection; semiconductor counters; zinc compounds; -70 to 170 C; 662 keV; ZnSe; gamma irradiation; high pressure Bridgman technique; melt-grown ZnSe solid-state radiation detectors; photo-peak position; pulse height spectra; solid-state radiation detectors; Crystals; Current measurement; Gold; Platinum; Pressure measurement; Radiation detectors; Solid state circuits; Temperature distribution; Temperature measurement; Zinc compounds;
Journal_Title :
Nuclear Science, IEEE Transactions on
