Title :
Novel mercuric iodide polycrystalline nuclear particle counters
Author :
Schieber, M. ; Zuck, A. ; Braiman, M. ; Nissenbaum, J. ; Turchetta, R. ; Dulinski, W. ; Husson, D. ; Riester, J.L.
Author_Institution :
Hebrew Univ., Jerusalem, Israel
fDate :
12/1/1997 12:00:00 AM
Abstract :
Polycrystalline mercuric iodide nuclear radiation detectors have been produced in a novel technology. Unlike the normal single-crystal technology, there is no intrinsic limit to the surface on which these detectors can be produced. Detectors with areas up to about 1.5 cm2 , thicknesses from 30 to 600 μm, and with single electrodes as well as microstrip and pixel contacts have been fabricated and successfully tested with photons in the range of 40-660 keV, β particle´s emitted from a Sr-Y source, and high energy (100 GeV) muons. Results on both charge collection and counting efficiency are reported as well as some very preliminary imaging results. The experimental results on charge collection have been compared with simulation, and a combined μτ product 10-7 cm2/V for electrons has been estimated
Keywords :
beta-ray detection; mercury compounds; muon detection; semiconductor counters; semiconductor materials; β particle; 30 to 600 mum; HgI2; Sr-Y source; charge collection; counting efficiency; electrons; mercuric iodide polycrystalline; microstrip; muons; nuclear particle counters; pixel contacts; Charge measurement; Counting circuits; Crystallization; Current measurement; Electrodes; Electrons; Radiation detectors; Temperature; Testing; Voltage;
Journal_Title :
Nuclear Science, IEEE Transactions on
