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109Ag位于慢速中子俘获过程路径上,且79%由快速中子俘获过程产生。同时,银铟镉(Ag-In-Cd)控制棒中109Ag的质量比为38.56%,109Ag的中子俘获反应截面数据在核能和核天体物理学应用中非常重要。本工作利用中国散裂中子源的白光中子源开展了109Ag同位素靶的中子俘获截面实验,结合中子飞行时间法和脉冲高度权重技术等方法获得了1-500 eV能区的109Ag中子俘获截面。使用基于R矩阵理论的SAMMY程序提取了109Ag的共振能量、中子共振宽度和辐射共振宽度参数,实验所提取的中子共振参数值在139.4 eV处符合JENDL-4.0库收录的结果,在169.9 eV处和328.1 eV处符合JEFF-4.0库收录的结果,在259.3 eV处符合CENDL-3.2库收录的结果。本文数据集可在https://www.doi.org/10.57760/sciencedb.j00213.00197中访问获取(私有访问链接https://www.scidb.cn/s/RNfUnq)。109Ag located on the path of the slow neutron capture process, and 79% of 109Ag is generated via the rapid neutron capture process.Meanwhile, the mass fraction of 109Ag in Ag-In-Cd control rods is 38.56%. Therefore, the neutron capture cross-section of 109Ag is crucial for both nuclear energy and nuclear astrophysics applications.In this work, a neutron capture cross-section measurement was performed using a 109Ag isotope target at the Back-n white neutron facility of the CSNS. Neutron capture cross-section in the 1-500 eV energy region were obtained by combining the time-of-flight method and the pulse-height weighting technique. The 109Ag resonance energy, neutron resonance width, and gamma resonance width parameters were extracted using the SAMMY code, which is based on R-matrix theory. The neutron resonance parameters extracted from this study at 139.4 eV are in agreement with the values in the JENDL-4.0 evaluation, while those at 169.9 eV and 328.1 eV agree with the JEFF-4.0 evaluation. Additionally, the result at 259.3 eV is consistent with the CENDL-3.2 evaluation.The datasets presented in this paper are openly available at https://www.doi.org/10.57760/sciencedb.j00213.00197 (Please use the private access link https://www.scidb.cn/s/RNfUnq to access the dataset during the peer review process)
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