Jesse M. Brown, K. Guber, C. Paradela, P. Schillebeeckx, S. Kopecky
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引用次数: 0
摘要
A =[90,91,92,94]的Zr同位素占自然存在的Zr的97%以上,对核反应堆等许多核应用都很重要。自然产生的Zr同位素的一个吸引人的特性是,在大多数中子能量处,它们的σγ/σt比值很低。因此,它们通过优先散射中子而不是吸收中子来改善反应堆中的中子经济性。同样的性质也对测量Zr同位素的俘获截面σγ提出了挑战。ENDF / B-VIII。对于大多数天然Zr同位素,0库对于入射中子能量< 0.1 MeV的相对不确定度约为10-20%,对于能量> 0.1 MeV的不确定度大于20%。这促使核临界安全计划开展一项运动,以准确测量和评估这些Zr同位素。在这项工作中,我们展示了第一个要测量的富集样品90Zr的能量依赖中子捕获截面测量。
Zirconium Nuclear Data Campaign: Measurement of 90Zr (n, γ) cross section
The isotopes of Zr with A = [90, 91, 92, 94] make up more than 97% of naturally occurring Zr and are important to many nuclear applications such as nuclear reactors. One of the attractive qualities of naturally occurring Zr isotopes is that they have a low σγ/σt ratio at most neutron energies. Thus, they improve the neutron economy in reactors by preferentially scattering neutrons rather than absorbing them. This same quality also presents a challenge to measuring the capture cross section, σγ, of Zr isotopes. The ENDF/B-VIII.0 library has a relative uncertainty of approximately 10–20% for incident neutron energies < 0.1 MeV and an uncertainty greater than 20% for energies > 0.1 MeV for the majority of natural Zr isotopes. This motivated the Nuclear Criticality Safety Program to embark on a campaign to accurately measure and evaluate these Zr isotopes. In this work, we demonstrate energy-dependent neutron capture cross section measurements for the first enriched sample to be measured: 90Zr.
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