Nuclear Technology & Radiation Protection Journal


NT & RP Journal	CALCULATION OF NaI(Tl) DETECTOR FULL-ENERGY PEAK EFFICIENCY USING THE EFFICIENCY TRANSFER METHOD FOR SMALL RADIOACTIVE CYLINDRICAL SOURCES
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Vol. XXXI, No. 2, Pp. 111-195 June 2016 UDC 621.039+614.876:504.06 ISSN 1451-3994 Back to Contents	Pages: 150-158 Authors: Mona M. Gouda, Mohamed S. Badawi, Ahmed M. EL-KHATIB, Nancy S. HUSSIEN, and Mahmoud I. ABBAS Abstract A direct analytical mathematical method is introduced to calculate the efficiency of gamma ray cylindrical detectors. The efficiency expression is deduced through a straightforward mathematical approach. The presented method is based on the accurate analytical calculation of the average path length covered by the photon within the detector's active volume, effective solid angle, and the efficiency transfer method in an integral form, so as to obtain a simple formula for the detection efficiency. In addition, the self-attenuation coefficient of the source matrix, the attenuation factors of the source container (with a radius smaller than the detector radius) and the detector housing materials are also treated by calculating the average path length within these materials. ¹⁵²Eu aqueous radioactive sources covering the energy range from 121 keV to 1408 keV were used. Remarkable agreement between the measured and the calculated efficiencies was achieved, with discrepancies less than 6 %. Key words: NaI(Tl) scintillation detector, cylindrical source, full-energy peak efficiency, self-attenuation factor FULL PAPER IN PDF FORMAT (1.97 MB)
Vinča Institute of Nuclear Sciences :: Designed by milas :: July 2007 Operated by acapanic :: Last updated on July, 2016

Pages: 150-158

Authors: Mona M. Gouda, Mohamed S. Badawi, Ahmed M. EL-KHATIB, Nancy S. HUSSIEN, and Mahmoud I. ABBAS

Abstract
A direct analytical mathematical method is introduced to calculate the efficiency of gamma ray cylindrical detectors. The efficiency expression is deduced through a straightforward mathematical approach. The presented method is based on the accurate analytical calculation of the average path length covered by the photon within the detector's active volume, effective solid angle, and the efficiency transfer method in an integral form, so as to obtain a simple formula for the detection efficiency. In addition, the self-attenuation coefficient of the source matrix, the attenuation factors of the source container (with a radius smaller than the detector radius) and the detector housing materials are also treated by calculating the average path length within these materials. ¹⁵²Eu aqueous radioactive sources covering the energy range from 121 keV to 1408 keV were used. Remarkable agreement between the measured and the calculated efficiencies was achieved, with discrepancies less than 6 %.

Key words: NaI(Tl) scintillation detector, cylindrical source, full-energy peak efficiency, self-attenuation factor

FULL PAPER IN PDF FORMAT (1.97 MB)