• DocumentCode
    934132
  • Title

    CsI(Tl) Micro-Pixel Scintillation Array for Ultra-high Resolution Gamma-ray Imaging

  • Author

    Cinti, M.N. ; Scafè, R. ; Pellegrini, R. ; Trotta, C. ; Bennati, P. ; Ridolfi, S. ; Lanconelli, Nico ; Montani, L. ; Cusanno, F. ; Garibaldi, F. ; Telfer, J. ; Pani, R.

  • Author_Institution
    Univ. of Rome, Rome
  • Volume
    54
  • Issue
    3
  • fYear
    2007
  • fDate
    6/1/2007 12:00:00 AM
  • Firstpage
    469
  • Lastpage
    474
  • Abstract
    The aim of this paper is to investigate the intrinsic spatial resolution limit by coupling a CsI(Tl) micro-pixel scintillation array to position sensitive photomultipliers (PSPMTs) for ultra-high resolution gamma-ray imaging. On this purpose, 1 mm thick array with 0.2 mm pixel side, 0.4 mm pitch has been realized by Spectra Physics (Hilger). The present scintillation arrays technology is suitable to produce larger crystal areas. In this paper we present spatial resolution and positioning results obtained by coupling the micro-pixel scintillation array to Hamamatsu square PSPMTs: 1rdquo R8520-C12, 1rdquo R5900-L16 and 2rdquo H8500 Flat panel PMT. Preliminary measurements demonstrate better performance in term of uniformity response when micro-pixel array is coupled to a H8500 PSPMT model. This setup carries out an intrinsic spatial resolution lower limit of about 0.6 mm FWHM at 50% FWHM energy resolution, defining it as the minimum scintillation array pitch detectable at 122 keV. The results obtained by R5900-L16 with a better sampling of the scintillation light has shown an improvement of the position linearity in spite of a worse spatial resolution due to the poor light output of scintillation array.
  • Keywords
    biomedical equipment; gamma-ray detection; photomultipliers; position sensitive particle detectors; solid scintillation detectors; CsI(Tl) micropixel scintillation array; Hamamatsu square PSPMT; electron volt energy 122 keV; intrinsic spatial resolution limit; position linearity; position sensitive photomultipliers; ultrahigh resolution gamma-ray imaging; Energy resolution; Image resolution; Linearity; Nuclear imaging; Optical arrays; Photomultipliers; Physics; Sampling methods; Solid scintillation detectors; Spatial resolution; Biomedical nuclear imaging; photomultipliers; scintillation detectors;
  • fLanguage
    English
  • Journal_Title
    Nuclear Science, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0018-9499
  • Type

    jour

  • DOI
    10.1109/TNS.2007.891227
  • Filename
    4237393