Fast Neutron Activation Analysis at the NCSRD Tandem Accelerator facility: Prognosis and Optimization

HNPS Advances in Nuclear Physics Pub Date : 2022-10-17 DOI:10.12681/hnps.4798
Z. Bari, S. Chasapoglou, A. Kalamara, T. Vasilopoulou, M. Axiotis, A. Lagoyannis, M. Kokkoris, R. Vlastou, I. Stamatelatos
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Abstract

Neutron Activation Analysis Prognosis and Optimization (NAAPRO) code was applied for the prognosis of the activation products, their activities, the number of counts recorded in the detector, the minimum detection limits as well as the gamma spectrum obtained in fast neutron activation analysis experiments. Simulations were performed for geological and biological reference materials irradiated with 14 MeV neutrons at the 5.5 MV NCSRD tandem accelerator facility. The results of the study demonstrated the fast neutron analytical capabilities of the accelerator and, moreover, allowed for the optimization of the FNAA parameters, while avoiding the performance of difficult and time-consuming experimental tests at the accelerator facility.
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NCSRD串联加速器设施的快中子活化分析:预测和优化
应用NAAPRO(中子活化分析预测与优化)程序对快中子活化分析实验中得到的活化产物、活度、检测器记录的计数数、最小检出限以及伽马谱进行预测。在5.5 MV NCSRD串联加速器上,对14 MeV中子辐照的地质和生物标准物质进行了模拟。研究结果证明了该加速器的快中子分析能力,并且允许优化FNAA参数,同时避免在加速器设施中进行困难和耗时的实验测试。
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HNPS Advances in Nuclear Physics
HNPS Advances in Nuclear Physics
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