3D Millimeter Event Localization in Bulk Scintillator Crystals
IEEE Transactions on Nuclear Science(2013)
摘要
One of the primary goals of scintillator-based gamma-ray detector development is to obtain spatial resolutions in bulk crystals at the millimeter level in all three spatial dimensions. An even more challenging goal is to disentangle multiple simultaneous energy depositions with comparable spatial resolutions. We are exploring a new technique to achieve this level of performance through the use of close-coupled, coded-aperture shadow masks placed between the crystal and a position-sensitive phototransducer. We report on simulations of such a device using Monte Carlo light transport simulations performed with GEANT4. Initial indications are promising; however, the technique will require a very high level of performance from the phototransducer.
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关键词
monte carlo light transport simulations,transducers,gamma- ray imager,position sensitive particle detectors,close-coupled coded-aperture shadow masks,position sensitive phototransducer,solid scintillation detectors,nuclear imaging,geant 4,3d millimeter event localization,photomultipliers,gamma-ray detectors,monte carlo methods,coded-aperture,geant4,millimeter level spatial resolution,spatial resolutions,three spatial dimensions,gamma-ray detection,close coupled coded aperture shadow masks,scintillator-based gamma-ray detector,multiple simultaneous energy depositions,gamma-ray imager,scintillator based gamma-ray detector,position-sensitive phototransducer,bulk scintillator crystals,energy depositions,position-sensitive detector,image resolution,crystals
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