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2013, № 5 (154)



УДК: 621.039.51Badawi M.S., Gouda M.M., El-Khatib A.M., Nafee S.S., El-Mallah E.A. NEW ANALYTICAL APPROACH TO CALIBRATE CYLINDRICAL HPGE DETECTOR INCLUDING CORRECTIONS FOR SELF ATTENUATION OF LARGE CYLINDRICAL SOURCES AND ATTENUATION OF ALL DETECTOR HOUSING MATERIALSHPGe semiconductor detectors are very useful for radioactivity measurement and to calculate the absolute activity, the full energy peak efficiency of the detector is needed. In this work, to calibrate the co-axial HPGe semiconductor detector, we introduce a new theoretical approach based on the Direct Statistical method proposed by Selim and Abbas to calculate the full-energy peak efficiency for cylindrical detectors. The present method depends on the accurate analytical calculation of the average path length covered by the photon inside the detector active volume and the geometrical solid angle, Щ, to obtain a simple formula for the efficiency. In addition, self attenuation of source matrix (with radius greater than the radius of the detector), the attenuation by the source container and the detector housing materials are also treated by calculating the average path length cross these materials. 152 Eu aqueous sources covering the energy range from 121 up to 1 408 keV were used. Remarkable agreement between the measured and the calculated efficiencies is achieved with discrepancies less than 2 %. Ключевые слова: HPGe detectors, large cylindrical sources, full-energy peak efficiency and self-attenuation.

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Список использованной литературы:

1. Abbas, M.I., 2001a. A direct mathematical method to calculate the efficiencies of a parallelepiped detector for an arbitrarily positioned point source. Radiat. Phys. Chem. 60, 3.

2. Abbas, M.I., 2001b. Analytical formulae for well-type NaI(Tl) and HPGe detectors efficiency computation. Appl. Radiat. Isot. 55, 245.

3. Abbas, M.I., 2001c. HPGe detector photopeak efficiency calculation including self-absorption and coincidence corrections for Marinilli beaker sources using compact analytical expressions. Appl. Radiat. Isot. 54, 761.

4. Abbas, M.I., Younis,Y. S., 2002. Calculation of relative full-energy peak efficiencies of well-type detectors. Nucl. Instrum. Methods A 480, 651.

5. Abbas, M.I., 2006. HPGe detector absolute full-energy peak efficiency calibration including coincidence correction for circular disc sources. J. Phys. D: Appl. Phys. 39, 3952.

6. Abbas, M.I., Nafee, S.S., Selim, Y.S., 2006. Calibration of cylindrical detectors using a simplified theoretical approach. Appl. Radiat. Isot. 64, 1057.

7. Haase, G., Tait, D., Wiechon, A., 1993. Application of new Monte Carl method for determination of summation and self-attenuation corrections in gamma spectrometry. Nucl. Instrum. Methods A336 ,206.

8. Lippert, J., 1983. Detector-efficiency calculation based on point-source measurement. Int. J. Appl. Radiat. Isot. 34, 1097.

9. Mihaljevic, N., De Corte, S., De Corte, F., Smodis, B., Jacimovic, R., Medin, G., De Wispelaere, A., Vukotic, P., Stegner, P., 1993. J. Radioanal. Nucl. Chem. 169, 209.

10. Moens, L., De Donder, J., Lin, X. L., De Corte, F., De Wispelaere, A., Simonits, A., Moens, L., Hoste, J., 1983. Calculation of the peak efficiency of high-purity germanium detectors. Int. J. Appl. Radiat. Isot. 34, 1085.

11. Nakamura, T., 1983. Monte Carlo calculation of peak efficiencies of Ge(Li) and pure Ge detectors to voluminal sources and comparison with environmental radioactivity measurement. Nucl. Instrum. Methods 205, 211.

12. Nafee, S.S., Abbas, M.I., 2008. Calibration of closed-end HPGe detectors using bar (parallelepiped) sources. Nucl. Instrum. Methods A 592, 80.

13. Selim, Y.S., Abbas, M.I., 1995. Direct calculation of the total efficiency of cylindrical scintillation detectors for non-axial point sources. Egypt. J. Phys. 26, 79.

14. Selim, Y.S., Abbas, M.I., 1996. Direct calculation of the total efficiency cylindrical scintillation detectors for extended circular sources. Radiat. Phys. Chem. 48, 23.

15. Selim, Y.S., Abbas, M.I., Fawzy, M.A., 1998. Analytical calculation of the efficiencies of gamma scintillators. Part I: total efficiency of coaxial disk sources. Radiat. Phys. Chem. 53, 589.

16. Selim, Y.S., Abbas, M.I., 2000. Analytical calculations of gamma scintillators efficiencies. Part II: total efficiency for wide coaxial disk sources. Radiat. Phys. Chem. 58, 15.

17. Sima, O., Arnold, D., 1996. Self-attenuation and coincidence summing corrections calculated by Monte Carlo simulations for gamma-spectrometric measure- ments with well-type germanium detectors. Appl. Radiat. Isot. 47, 889.

18. Wang, T.K., Mar, W.Y., Ying, T.H., Liao, C.H., Tseng, C.L., 1995. HPGe detector absolute-peak-efficiency calibration by using the ESOLAN program. Appl. Radiat. Isot. 46, 933.

19. Wang, T.K., Mar, W.Y., Ying, T.H., Tseng, C.H., Liao, C.H., Wang, M.Y., 1997. HPGe Detector efficiency calibration for extended cylinder and Marinelli- beaker sources using the ESOLAN program. Appl. Radiat. Isot. 48, 83.


О статье

Авторы: Bаdаwi М.S., El-Кhаtib А.М., El-Маllаh Е.А., Gоuda М.М., Nаfее S.S.

Год: 2013


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