Title :
Signal generation in CdZnTe strip detectors
Author :
Hamel, L.A. ; Macri, J.R. ; Stahle, C.M. ; Odom, J. ; Birsa, F. ; Shu, P. ; Doty, F.P.
Author_Institution :
Montreal Univ., Que., Canada
fDate :
6/1/1996 12:00:00 AM
Abstract :
The energy resolution of CdTe and CdZnTe detectors is usually limited by the poor transport properties of holes. Devices segmented into small pixels have been observed to exhibit improved energy resolutions. Simulations have shown that this small pixel effect is due to the fact that small pixels are mostly sensitive to carriers moving close to the pixel, within a distance of the order of the pixel size. In this paper, signals are calculated for CdZnTe strip detectors in order to determine to what extent a similar small electrode effect is produced by strips. The free carrier density distributions following the absorption of a γ-ray are calculated by solving the continuity equations. Combined with the strip weighting field, this provides the signal induced in the strip. Simulations are made for various detector geometries and for both the anode and cathode strips. Simulated signals are compared with actual signals measured on CdZnTe detectors
Keywords :
II-VI semiconductors; cadmium compounds; carrier density; detector circuits; gamma-ray absorption; gamma-ray detection; nuclear electronics; position sensitive particle detectors; semiconductor counters; signal generators; zinc compounds; γ-ray absorption; CdZnTe; anode strip; cathode strip; continuity equations; energy resolution; free carrier density distributions; hole transport properties; signal generation; simulated signals; small electrode effect; small pixels; strip detectors; strip weighting field; Charge carrier density; Detectors; Electrodes; Electromagnetic wave absorption; Energy resolution; Equations; Geometry; Signal generators; Solid modeling; Strips;
Journal_Title :
Nuclear Science, IEEE Transactions on