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Real-Time Pulse-Shape Discrimination and Beta-Gamma Coincidence Detection in Field-Programmable Gate Array Public Deposited

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https://ir.library.oregonstate.edu/concern/articles/4m90dw69p

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Abstract
  • A real-time FPGA-based algorithm has been developed and tested to discriminate pulse-shapes, identify beta-gamma coincidence events and collect energy spectra from xenon radioisotopes using a phoswich detector. The detector consists of a thin plastic scintillator (BC-400) to detect beta and conversion electrons, a CsI(Tl) crystal for measuring X-rays and gamma-rays, and a BGO crystal, which surrounds the CsI(Tl) layer, to identify scattered photons and ultimately to reduce Compton continuum in the gamma energy spectrum. In this paper, we report on the detail of the FPGA hardware design, the pulse-shape discrimination method, and the system’s operational modes. In addition, our initial real-time radioxenon measurement results with the phoswich detector are presented.
  • Keywords: Digital Signal Processing, FPGA Devices, Phoswich Detector, Radioxenon Measurement, Pulse Shape Discrimination
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  • Farsoni, A. T., Alemayehu, B., Alhawsawi, A., & Becker, E. M. (2013). Real-time pulse-shape discrimination and beta-gamma coincidence detection in field-programmable gate array. Nuclear Instruments & Methods in Physics Research Section a-Accelerators Spectrometers Detectors and Associated Equipment, 712, 75-82. doi:10.1016/j.nima.2013.02.003
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  • 712
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  • This work was supported by the U.S. Department of Energy, National Nuclear Security Administration under Contract No. DE-AC52-09NA29324.
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