Title :
Optimal detector geometry to maximize light output and timing characteristics of fast scintillators
Author :
Votaw, JR ; Nickles, RJ ; Martin, CC
Author_Institution :
Dept. of Med. Phys., Wisconsin Univ., Madison, WI, USA
Abstract :
A Monte Carlo computer program has been developed to test different detector geometries in an effort to determine the shape that maximizes a figure of merit based on increasing the temporal resolution while retaining high sensitivity. Detector crystals shaped as truncated cones were examined with specular scattering from the crystal-air interface. On the basis of the results, two truncated cones with 20-mm base radius, 10-mm top radius, and 20-mm height were purchased and compared to existing 20-mm*20-mm*40-mm crystals and to the results in the literature. The temporal resolution obtained with the cone system is 222 ps FWHM with an intrinsic efficiency of 24%. The experimental results confirm the accuracy and usefulness of the computer model.<>
Keywords :
scintillation counters; Monte Carlo computer program; crystal-air interface; detector geometry; fast scintillators; figure of merit; high sensitivity; maximize light output; specular scattering; temporal resolution; timing characteristics; truncated cones; Cathodes; Crystals; Geometry; Light scattering; Monte Carlo methods; Physics; Sensor arrays; Shape; Solid scintillation detectors; Timing;
Journal_Title :
Nuclear Science, IEEE Transactions on
