A High Resolution Detection System for Positron Tomography

The feasibility of using a hybrid detection system, consisting of multiple narrow bismuth germanate (BGO) crystals coupled to one photomultiplier for coincidence timing, and individual mercuric iodide (HgI2) photodetectors coupled to each BGO crystal to identify crystals of interaction, was investigated for application to positron tomography. The match between the emission spectrum of BGO and the photoresponse spectrum of HgI2 in combination with recently developed HgI2 x-ray detector and low noise preamplifier technology provided the appropriate high sensitivity, low noise environment required to detect the low levels of scintillation light produced in the absorption of 511 keV gamma-rays in BGO. Energy resoluton of 24% for 511 keV was obtained with the BGO-HgI2 detector, compared to 18% for BGO with a PMT. Coincidence resolving time for the HgI2-BGO detector was measured to be 105 nanoseconds. This performance of a non-optimized detector system is nominally adequate for appropriately designed tomographs.

[1]  J. B. Barton,et al.  A Novel Radiation Detector Consisting of an HgI2 Photodetector Coupled to a Scintillator , 1983, IEEE Transactions on Nuclear Science.

[2]  M E Phelps,et al.  An analysis of signal amplification using small detectors in positron emission tomography. , 1982, Journal of computer assisted tomography.

[3]  J. B. Barton,et al.  Room-temperature mercuric iodide spectrometry for low-energy x-rays , 1982 .

[4]  J. Mazziotta,et al.  Positron computed tomography. , 1982, JAMA.

[5]  E. Hoffman,et al.  Evaluating the Performance of Multiplane Positron Tomographs Designed for Brain Imaging , 1982, IEEE Transactions on Nuclear Science.

[6]  E. J. Hoffman,et al.  Investigation of a Technique for Providing a Pseudo-Continuous Detector Ring for Positron Tomography , 1982, IEEE Transactions on Nuclear Science.

[7]  S. Derenzo,et al.  Monte Carlo Calculations of the Optical Coupling between Bismuth Germanate Crystals and Photomultiplier Tubes , 1982, IEEE Transactions on Nuclear Science.

[8]  J. B. Barton,et al.  Performance of Room Temperature Mercuric Iodide (Hgi2) Detectors in the Ultralow-Energy X-Ray Region , 1981, IEEE Transactions on Nuclear Science.

[9]  S. Derenzo Monte Carlo Calculations of the Detection Efficiency of Arrays of Nai(Tl), Bgo, Csf, Ge, and Plastic Detectors for 511 Kev Photons , 1981, IEEE Transactions on Nuclear Science.

[10]  J. Iwanczyk,et al.  A Study of Low-Noise Preamplifier Systems for Use with Room Temperature Mercuric Iodide (Hgi2) X-Ray Detectors , 1981, IEEE Transactions on Nuclear Science.

[11]  J. B. Barton,et al.  Performance Of Room-Temperature X-Ray Detectors Made From Mercuric Iodide (HgI2) Platelets , 1981 .

[12]  A. Dabrowski Solid-State Room-Temperature Energy-Dispersive X-Ray Detectors , 1981 .

[13]  M E Phelps,et al.  Quantitation in Positron Emission Computed Tomography: 3. Effect of Sampling , 1980, Journal of computer assisted tomography.

[14]  S. E. Derenzo,et al.  Precision measurement of annihilation point spread distributions for medically important positron emitters , 1979 .

[15]  M E Phelps,et al.  ECAT: a new computerized tomographic imaging system for positron-emitting radiopharmaceuticals. , 1978, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.

[16]  M E Phelps,et al.  Effect of positron range on spatial resolution. , 1975, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.

[17]  O. H. Nestor,et al.  BISMUTHGERMANATE: A HIGH-ZGAMMA-RAY AND CHARGEDPARTICLEDETECTOR , 1975 .

[18]  J. Bateman,et al.  A cryogenic scintillator-photodiode detector for penetrating charged particles , 1973 .

[19]  J. E. Bateman A solid state scintillation detector for high-energy charged particles , 1969 .

[20]  J. Bateman SOME RECENT RESULTS WITH A PHOTODIODE--ORGANIC SCINTILLATOR COMBINATION USED AS A DETECTOR FOR HIGH ENERGY CHARGED PARTICLES. , 1969 .

[21]  J. Bateman Some new scintillator-photodiode detectors for high energy charged particles , 1969 .

[22]  G. Keil Gamma-ray spectrometry with a scintillator-photodiode combination , 1968 .

[23]  C. Fan Detection of scintillation photons with photodiodes , 1964 .

[24]  M. Blamires Combination of a scintillator and a semiconductor photodiode for nuclear particle detection , 1963 .

[25]  E. Hubbard,et al.  Photoeffects in Silicon Surface‐Barrier Diodes , 1962 .