Quantification of uranium-238 in environmental samples using gamma-ray spectrometry

Quantification of uranium-238 in environmental samples using gamma-ray spectrometry

A large number of environmental samples are routinely measured world-wide using gamma-ray spectrometry some of its assets being easy sample preparation and comprehensive data for many radionu-clides in one analysis. Although other techniques can be considered more suitable for analysing 238U in envi...

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Main Authors: Yeltepe E., Pommé S., González de Orduña R., Andreotti E., Hult M.
Format: Article
Language:English
Published: EDP Sciences 2012-04-01
Series:EPJ Web of Conferences
Online Access:http://dx.doi.org/10.1051/epjconf/20122407005
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spelling doaj-98fe8fa5ec004003b06114808d965b782021-08-02T12:11:44ZengEDP SciencesEPJ Web of Conferences2100-014X2012-04-01240700510.1051/epjconf/20122407005Quantification of uranium-238 in environmental samples using gamma-ray spectrometryYeltepe E.Pommé S.González de Orduña R.Andreotti E.Hult M.A large number of environmental samples are routinely measured world-wide using gamma-ray spectrometry some of its assets being easy sample preparation and comprehensive data for many radionu-clides in one analysis. Although other techniques can be considered more suitable for analysing 238U in environmental samples, it is also routinely done by gamma-ray spectrometry. One mainly uses γ-ray emissions following the decay of the first daughter, 234Th, for determining the 238U activity. However, the low-energy gamma-rays at 63 keV and 92.5 keV are very difficult to quantify in a robust way due to high attenuation and interferences. This paper quantifies parameters affecting the possibility of making robust quantification of 238U via 234Th using gamma-ray spectrometry. It addresses the use of correct decay data, suitable detectors, optimised sample size, enhanced spectral amplification, correction for peak interferences and control of background. http://dx.doi.org/10.1051/epjconf/20122407005
collection DOAJ
language English
format Article
sources DOAJ
author Yeltepe E.
Pommé S.
González de Orduña R.
Andreotti E.
Hult M.
spellingShingle Yeltepe E.
Pommé S.
González de Orduña R.
Andreotti E.
Hult M.
Quantification of uranium-238 in environmental samples using gamma-ray spectrometry
EPJ Web of Conferences
author_facet Yeltepe E.
Pommé S.
González de Orduña R.
Andreotti E.
Hult M.
author_sort Yeltepe E.
title Quantification of uranium-238 in environmental samples using gamma-ray spectrometry
title_short Quantification of uranium-238 in environmental samples using gamma-ray spectrometry
title_full Quantification of uranium-238 in environmental samples using gamma-ray spectrometry
title_fullStr Quantification of uranium-238 in environmental samples using gamma-ray spectrometry
title_full_unstemmed Quantification of uranium-238 in environmental samples using gamma-ray spectrometry
title_sort quantification of uranium-238 in environmental samples using gamma-ray spectrometry
publisher EDP Sciences
series EPJ Web of Conferences
issn 2100-014X
publishDate 2012-04-01
description A large number of environmental samples are routinely measured world-wide using gamma-ray spectrometry some of its assets being easy sample preparation and comprehensive data for many radionu-clides in one analysis. Although other techniques can be considered more suitable for analysing 238U in environmental samples, it is also routinely done by gamma-ray spectrometry. One mainly uses γ-ray emissions following the decay of the first daughter, 234Th, for determining the 238U activity. However, the low-energy gamma-rays at 63 keV and 92.5 keV are very difficult to quantify in a robust way due to high attenuation and interferences. This paper quantifies parameters affecting the possibility of making robust quantification of 238U via 234Th using gamma-ray spectrometry. It addresses the use of correct decay data, suitable detectors, optimised sample size, enhanced spectral amplification, correction for peak interferences and control of background.
url http://dx.doi.org/10.1051/epjconf/20122407005
work_keys_str_mv AT yeltepee quantificationofuranium238inenvironmentalsamplesusinggammarayspectrometry
AT pommes quantificationofuranium238inenvironmentalsamplesusinggammarayspectrometry
AT gonzalezdeordunar quantificationofuranium238inenvironmentalsamplesusinggammarayspectrometry
AT andreottie quantificationofuranium238inenvironmentalsamplesusinggammarayspectrometry
AT hultm quantificationofuranium238inenvironmentalsamplesusinggammarayspectrometry
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