Your search keyword '"Dragana Todorović"' showing total 2 results

1. Semiempirical Efficiency Calibration in Semiconductor HPGe Gamma-Ray Spectroscopy

Author

Jelena Krneta Nikolić, Milica Rajačić, Dragana Todorović, Marija Janković, Nataša Sarap, Gordana Pantelić, and Ivana Vukanac

Subjects

Optics. Light, QC350-467

Abstract

One of the main problems in quantitative gamma-ray spectroscopy is the determination of detection efficiency, for different energies, source-detector geometries, and composition of samples or sources. There are, in principle, three approaches to this issue: experimental, numerical, and semiempirical. Semiempirical approach is based on the calculation of the efficiency for the measured sample on the basis of an experimental efficiency measured on the same detector, but with a calibration source that can be of different size, geometry, density, or composition—the so-called efficiency transfer. The aim of this paper is to analyze the semiempirical approach, using EFFTRAN and MEFFTRAN software as a typical example. These software were used in the Department of Radiation and Environmental Protection, Vinča Institute of Nuclear Sciences, on three HPGe detectors. The results were compared to the experimentally obtained efficiency, and further validation is performed by measuring reference materials issued within the framework of several interlaboratory intercomparisons. The analysis of the results showed that the efficiency transfer produces good results with the discrepancies within the limits of the measurement uncertainty. Also, for intercomparison measurement, utest criterion for the trueness of the result was applied showing that the majority of the obtained results were acceptable. Some difficulties were identified, and the ways to overcome them were discussed.

Published

2018

2. Semiempirical Efficiency Calibration in Semiconductor HPGe Gamma-Ray Spectroscopy

Author

Gordana K. Pantelić, Dragana Todorović, Jelena Krneta Nikolić, Ivana Vukanac, Marija M. Janković, Nataša Sarap, and Milica Rajačić

Subjects

gamma ray spectrometers, Materials science, Article Subject, 01 natural sciences, 030218 nuclear medicine & medical imaging, Analytical Chemistry, 03 medical and health sciences, 0302 clinical medicine, 0103 physical sciences, Calibration, lcsh:QC350-467, Gamma spectroscopy, Spectroscopy, uncertainty analysis, Uncertainty analysis, germanium compounds, 010308 nuclear & particles physics, business.industry, Detector, calibration, Atomic and Molecular Physics, and Optics, Semiconductor detector, Computational physics, phosphorus compounds, 13. Climate action, efficiency, Measurement uncertainty, Radiation protection, business, radiation protection, semiconducting germanium compounds, lcsh:Optics. Light

Abstract

One of the main problems in quantitative gamma-ray spectroscopy is the determination of detection efficiency, for different energies, source-detector geometries, and composition of samples or sources. There are, in principle, three approaches to this issue: experimental, numerical, and semiempirical. Semiempirical approach is based on the calculation of the efficiency for the measured sample on the basis of an experimental efficiency measured on the same detector, but with a calibration source that can be of different size, geometry, density, or composition—the so-called efficiency transfer. The aim of this paper is to analyze the semiempirical approach, using EFFTRAN and MEFFTRAN software as a typical example. These software were used in the Department of Radiation and Environmental Protection, Vinča Institute of Nuclear Sciences, on three HPGe detectors. The results were compared to the experimentally obtained efficiency, and further validation is performed by measuring reference materials issued within the framework of several interlaboratory intercomparisons. The analysis of the results showed that the efficiency transfer produces good results with the discrepancies within the limits of the measurement uncertainty. Also, for intercomparison measurement, utest criterion for the trueness of the result was applied showing that the majority of the obtained results were acceptable. Some difficulties were identified, and the ways to overcome them were discussed.

Published

2018