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Recommended nuclear data for medical radioisotope production: diagnostic positron emitters
Tá,rká,nyi, F. T.,Ignatyuk, A. V.,Hermanne, A.,Capote, R.,Carlson, B. V.,Engle, J. W.,Kellett, M. A.,Kibé,di, T.,Kim, G. N.,Kondev, F. G.,Hussain, M.,Lebeda, O.,Luca, A.,Nagai, Y.,Na Springer-Verlag 2019 Journal of Radioanalytical and Nuclear Chemistry Vol.319 No.2
Estimation of <sup>99</sup> Mo production rates from natural molybdenum in research reactors
Blaauw, M.,Ridikas, D.,Baytelesov, S.,Salas, P. S. Bedregal,Chakrova, Y.,Eun-Ha, Cho,Dahalan, R.,Fortunato, A. H.,Jacimovic, R.,Kling, A.,Muñ,oz, L.,Mohamed, N. M. A.,Pá,rká,nyi, D. Springer Netherlands 2017 Journal of radioanalytical and nuclear chemistry Vol.311 No.1
<P>Molybdenum-99 is one of the most important radionuclides for medical diagnostics. In 2015, the International Atomic Energy Agency organized a round-robin exercise where the participants measured and calculated specific saturation activities achievable for the <SUP>98</SUP>Mo(n,γ)<SUP>99</SUP>Mo reaction. This reaction is of interest as a means to locally, and on a small scale, produce <SUP>99</SUP>Mo from natural molybdenum. The current paper summarises a set of experimental results and reviews the methodology for calculating the corresponding saturation activities. Activation by epithermal neutrons and also epithermal neutron self-shielding are found to be of high importance in this case.</P>