Imaging performance of lanthanum bromide scintillators with wavelength shifting fiber readout

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Conference Proceeding

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Astrophysical x-ray/gamma-ray telescopes and standoff detectors for national security applications may require detector areas on the order of a meter squared or more. A finegrained meter squared scale scintillator with mm-scale resolution may require ∼10° pixels and electronics channels. In many applications, this can be prohibitive. Since LaBr3:Ce produces significantly more scintillation light (63 photons/keV) than other materials, it offers the possibility of a crossed optical fiber readout approach needing only a few thousand channels. A layer of 2 mm square, double clad waveshifting fibers can be laid in the x-directlon across the top of a LaBrs detection plane (separated from the LaBr3 by a thin glass seal that provides a moisture barrier), with a second layer of fibers in the y-direction laid across the bottom. With an absorption peak matched to the emission of LaBr3, the fibers will absorb the scintillation light and reemit it isotropically, a portion of which will be trapped in the fiber and propagated down the fiber axis, where the fiber ends are viewed by 64-channel MAPMTs. The crossed fiber layers are intended to measure x- and y-position only. Since only a small fraction of the light is trapped in the fibers, the energy is measured in nine large "energy measuring" PMTs viewing the scintillator through the bottom fiber layer. A lab-scale crossed-fiber LaBr3:Ce imager has been constructed as a protype for this concept. Results of measurements of energy, position, and angular resolution are given. The use of pre-processed Detector Pixel Source Image (DPSI) files, which provide a significant speed-up in the computationally intensive reconstruction process, is explained in detail. ©2007 IEEE.

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IEEE Nuclear Science Symposium Conference Record

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