• Title of article

    Attenuation of a non-parallel beam of gamma radiation by thick shielding—application to the determination of the 235U enrichment with NaI detectors

  • Author/Authors

    Mortreau، نويسنده , , Patricia and Berndt، نويسنده , , Reinhard، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2005
  • Pages
    16
  • From page
    675
  • To page
    690
  • Abstract
    The traditional method used to determine the Uranium enrichment by nondestructive analysis is based on the “enrichment meter principle” [1]. It involves measuring the intensity of the 186 keV net peak area of 235U in “quasi-infinite” samples. A prominent factor, which affects the peak intensity, is the presence of gamma absorbing material (e.g., container wall, detector cover) between the sample and the detector. Its effect is taken into consideration in a commonly called “wall thickness” correction factor. Often calculated on the basis of approximations, its performance is adequate for small attenuation factors applicable to the case of narrow beams. However these approximations do not lead to precise results when wide non-parallel beams are attenuated through thick container walls. aper is dedicated to the calculation by numerical integration of the geometrical correction factor (Kwtc) which describes the effective mean path length of the radiation through the absorbing layer. This factor was calculated as a function of various measurement parameters (types and dimensions of the detector, of the collimator and of the shielding) for the most commonly used collimator shapes and detectors. Both coherent scattering (Rayleigh) and incoherent scattering (Compton) are taken into account for the calculation of the radiation interaction within the detector.
  • Keywords
    Uranium enrichment , Non-destructive assay , ?-ray spectrometry , Numerical Integration , Wall thickness correction factor , NaI Detector
  • Journal title
    Nuclear Instruments and Methods in Physics Research Section A
  • Serial Year
    2005
  • Journal title
    Nuclear Instruments and Methods in Physics Research Section A
  • Record number

    2199237