Title :
Recovery of spectral information from an imperfect detector using the expectation maximization algorithm
Author :
Eskin, Joshua D. ; Barrett, Harrison H. ; Barber, H. Bradford
Author_Institution :
Arizona Univ., Tucson, AZ, USA
fDate :
30 Oct-5 Nov 1994
Abstract :
A gamma-ray detector can be modeled as a linear system which maps a photon flux with a given energy distribution to a pulse-height spectrum. In a perfect detector, the response to a monoenergetic beam would be a delta function. In any real detector, carrier trapping, escape of K x-rays, Compton scattering, and instrument noise will produce a broadened response function. We develop a model of the response function of a ZnCdTe detector and use it to recover the incident energy spectrum from a measured pulse height spectrum using the Expectation-Maximization (EM) algorithm. This technique can be applied to any type of nuclear detector, using any combination of modeled and measured response functions. An analysis of the noise cost incurred in the reconstruction algorithm shows that the technique can be used to advantage even with relatively few counts in the measured spectrum
Keywords :
cadmium compounds; semiconductor counters; ternary semiconductors; zinc compounds; Compton scattering; K x-rays; ZnCdTe detector; broadened response function; carrier trapping; delta function; energy distribution; expectation maximization algorithm; gamma-ray detector; imperfect detector; instrument noise; monoenergetic beam; nuclear detector; photon flux; pulse height spectrum; pulse-height spectrum; reconstruction algorithm; spectral information recovery; Electromagnetic scattering; Energy measurement; Gamma ray detectors; Instruments; Linear systems; Particle scattering; Pulse measurements; X-ray detection; X-ray detectors; X-ray scattering;
Conference_Titel :
Nuclear Science Symposium and Medical Imaging Conference, 1994., 1994 IEEE Conference Record
Conference_Location :
Norfolk, VA
Print_ISBN :
0-7803-2544-3
DOI :
10.1109/NSSMIC.1994.474370
