ISSN:
1573-8205
Source:
Springer Online Journal Archives 1860-2000
Topics:
Energy, Environment Protection, Nuclear Power Engineering
,
Physics
Notes:
Conclusions When using antimony-beryllium neutron sources for activation analysis of the composition of a substance, the problem of the analytical monitoring of many elements can be solved with a limit of determination of 10−3–10−5%. Based on the data obtained by the authors concerning the spatial distribution of the neutrons from a124Sb−Be-source in different moderators, a beryllium-graphite assembly with a powerful124Sb source has been designed, manufactured, and introduced into operation, for neutron-activation analysis. As applicable to the124Sb−Be-graphite assembly, a procedure has been developed for the neutron-activation determination of gold, with a limit of determination of 2·10−5%. The possible limits of the neutron-activation determination of certain other elements have been estimated. In order to ensure operation of the facility with recharging of the source once in 6 months, it is advisable to carry out the preparation of a source in a neutron flux with a density of 3·10−13 neutrons/ (cm2·sec) during 30–50 days (for a mass of metallic antimony of 500 g) with subsequent two-week cooling in order to reduce the122Sb activity. Initial data have been obtained for the design of a transportation container for powerful124Sb sources.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF01122306
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