Validating nuclear data uncertainties obtained from a statistical analysis of experimental data with the “Physical Uncertainty Bounds” method

IF 0.9 Q3 NUCLEAR SCIENCE & TECHNOLOGY
D. Neudecker, M. White, D. Vaughan, G. Srinivasan
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引用次数: 6

Abstract

Concerns within the nuclear data community led to substantial increases of Neutron Data Standards (NDS) uncertainties from its previous to the current version. For example, those associated with the NDS reference cross section 239Pu(n,f) increased from 0.6–1.6% to 1.3–1.7% from 0.1–20 MeV. These cross sections, among others, were adopted, e.g., by ENDF/B-VII.1 (previous NDS) and ENDF/B-VIII.0 (current NDS). There has been a strong desire to be able to validate these increases based on objective criteria given their impact on our understanding of various application uncertainties. Here, the “Physical Uncertainty Bounds” method (PUBs) by Vaughan et al. is applied to validate evaluated uncertainties obtained by a statistical analysis of experimental data. We investigate with PUBs whether ENDF/B-VII.1 or ENDF/B-VIII.0 239Pu(n,f) cross-section uncertainties are more realistic given the information content used for the actual evaluation. It is shown that the associated conservative (1.5–1.8%) and minimal realistic (1.1–1.3%) uncertainty bounds obtained by PUBs enclose ENDF/B-VIII.0 uncertainties and indicate that ENDF/B-VII.1 uncertainties are underestimated.
用“物理不确定界限”方法验证由实验数据统计分析得到的核数据不确定度
核数据界的担忧导致中子数据标准(NDS)的不确定性从以前的版本大幅增加到现在的版本。例如,与NDS参考截面239Pu(n,f)相关的那些从0.1–20 MeV从0.6–1.6%增加到1.3–1.7%。例如,ENDF/B-VII.1(以前的NDS)和ENDF/B-VIII.0(现在的NDS。鉴于这些增长对我们理解各种应用不确定性的影响,我们强烈希望能够根据客观标准验证这些增长。在这里,Vaughan等人的“物理不确定性边界”方法(PUBs)用于验证通过实验数据的统计分析获得的评估不确定性。考虑到实际评估所用的信息内容,我们用PUB研究了ENDF/B-VII.1或ENDF/B-VIII.0 239Pu(n,f)横截面的不确定性是否更现实。结果表明,PUB获得的相关保守(1.5-1.8%)和最小现实(1.1-1.3%)不确定性边界包含了ENDF/B-VII.0不确定性,表明ENDF/B-VII.1不确定性被低估。
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来源期刊
EPJ Nuclear Sciences & Technologies
EPJ Nuclear Sciences & Technologies NUCLEAR SCIENCE & TECHNOLOGY-
CiteScore
1.00
自引率
20.00%
发文量
18
审稿时长
10 weeks
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