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Pre-neutron fragment mass yields for^(235)U(n,f)and^(239)Pu(n,f)reactions at incident energies from thermal up to 20 MeV
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作者 邹方磊 孙小军 +4 位作者 张凯 陈鸿飞 言杰 田俊龙 崔云怡 《Chinese Physics C》 SCIE CAS CSCD 2023年第4期161-167,共7页
Pre-neutron fragment mass yields in the vicinity of the thermal neutron energy are highly important for applications because of the larger fission cross sections of the^(235)U(n,f)and^(239)Pu(n,f)reactions.In this pap... Pre-neutron fragment mass yields in the vicinity of the thermal neutron energy are highly important for applications because of the larger fission cross sections of the^(235)U(n,f)and^(239)Pu(n,f)reactions.In this paper,preneutron fragment mass yields at incident energies from thermal up to 20 MeV are systematically studied using an empirical fission potential(EFP)model,the potential parameters of which are obtained from the measured data.The energy dependences of the peaks and valleys of the pre-neutron fragment mass yields are described by exponential and linear functions for the^(235)U(n,f)and^(239)Pu(n,f)reactions,respectively.The energy dependences of the evaporation neutrons,which play a crucial role in the reasonable description of pre-neutron fragment mass yields,are also obtained from the fission cross sections.The pre-neutron fragment mass yields in this study are not only consistent with the results of previous studies in regions of several Me Vs but also agree well with existing measured data at incident energies from thermal up to 20 MeV.The results show that the feasibility of this EFP model is verified in this extended energy region. 展开更多
关键词 ^^(235)u(n f)reaction ^^(239)Pu(n f)reaction thermal neutron energy empirical fission potential model pre-neutron fragment mass yield
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有源中子计数法测量铀总量方法研究
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作者 陈勇 程毅梅 许小明 《同位素》 CAS 2022年第2期92-97,共6页
含铀物料中铀总量是核材料衡算与控制中最关注的信息之一,因非破坏性测量分析方法(NDA)不破坏样品,不产生二次废物,可对样品整体测量,因此常用作含铀物料中铀总量的测量分析。本研究基于有源中子计数法建立测量含铀物料中铀总量的新方... 含铀物料中铀总量是核材料衡算与控制中最关注的信息之一,因非破坏性测量分析方法(NDA)不破坏样品,不产生二次废物,可对样品整体测量,因此常用作含铀物料中铀总量的测量分析。本研究基于有源中子计数法建立测量含铀物料中铀总量的新方法。对10组铀的标准样品进行测量分析,结果表明,测量误差为1.7%,小于5%,达到非破坏性分析技术的误差水平,该方法利用了不同丰度的样品确定有效^(235)U质量计算公式,用于确定铀总量。该方法适用性广,可以用于铀物料的快速核实无损测量。 展开更多
关键词 铀材料 有源中子法 无损分析技术 ^有效^(235)u质量
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