1. Measurement of the natEu(n,γ) cross section up to 500 keV at the CSNS Back-n facility, and the stellar 151,153Eu(n,γ) cross section at s-process temperatures.
- Author
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Li, Xiankai, An, Zhendong, Jiang, Wei, Yang, Gaole, Qiu, Weiwei, Liao, Zhengfa, Zhuang, Ziyue, Zhang, Xiaoping, Chen, Shengli, Guo, Chenchen, Xiao, Erxi, Fang, Xiao, Li, Xinxiang, Wang, Hongwei, Hu, Xinrong, Jiang, Bing, Shen, Wenqing, Wang, Jincheng, Ren, Jie, and Ruan, Xichao
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NEUTRON capture , *LIQUID scintillators , *DATA libraries , *NEUTRON sources , *NUCLEOSYNTHESIS , *NUCLIDES , *SCINTILLATORS , *NUCLEAR astrophysics - Abstract
In nuclear astrophysics, the nuclides 151 Eu and 153 Eu are both in the path of the s-process, and their (n, γ ) cross sections are important input parameters for the calculation of the nuclear astrophysics network. According to the EXFOR database, the neutron capture cross section of natural europium in the resonance region has not been fully measured. The (n, γ ) cross section of nat Eu was measured using the time-of-flight (TOF) technique at the Back-n white neutron source facility of the China Spallation Neutron Source (CSNS) in the 1 eV–to 500 keV range. Four C 6 D 6 liquid scintillator detectors and pulse height weighting techniques were used to measure prompt γ rays and analyze the data. The results of the analysis were compared with the evaluated data of ENDF/B-VIII.0 and JENDL-5.0. It shows that there are some differences between the measurement results and different evaluated data libraries. The resonance parameters of 151 Eu and 153 Eu were extracted in the 1 eV–150 eV region using the R-Matrix code SAMMY. The accurate Maxwellian-averaged capture cross section (MACS) is derived over the temperature range of the s-process nucleosynthesis model. The result shows that at kT=30 keV, the MACS value of 151 Eu is 3417 ± 297 mb and the value of 153 Eu is 2718 ± 237 mb. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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