Neutron capture measurement and resonance parameter analysis of natSm

X.X. Li; L.X. Liu; W. Jiang; J. Ren; H.W. Wang; G.T. Fan; J.J. He,; D.X. Wang; S.Y Zhang; Z.D. An; X.G. Cao; L.L. Song; Y. Zhang; X.R. Hu; Z.R.; Hao; P. Kuang; B. Jiang; X.H. Wang; J.F. Hu; Y.D. Liu; X. Ma; C.W. Ma; Y.T.; Wang; J. Su; L.Y. Zhang; Y.X. Yang; W.B. Liu; W.Q. Su; S. Jin; and K.J. Chen

arXiv:2204.04345·nucl-ex·April 12, 2022

Neutron capture measurement and resonance parameter analysis of natSm

X.X. Li, L.X. Liu, W. Jiang, J. Ren, H.W. Wang, G.T. Fan, J.J. He,, D.X. Wang, S.Y Zhang, Z.D. An, X.G. Cao, L.L. Song, Y. Zhang, X.R. Hu, Z.R., Hao, P. Kuang, B. Jiang, X.H. Wang, J.F. Hu, Y.D. Liu, X. Ma, C.W. Ma, Y.T., Wang, J. Su, L.Y. Zhang, Y.X. Yang, W.B. Liu, W.Q. Su

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TL;DR

This study measures neutron capture yields of natural samarium isotopes, analyzes resonance parameters, and compares results with existing nuclear data libraries to improve understanding of samarium's nuclear properties relevant to astrophysics and reactor physics.

Contribution

The paper provides new neutron capture measurements and resonance analysis for natural samarium isotopes, highlighting discrepancies in existing nuclear data libraries.

Findings

01

Possible resonance peaks at 8 eV identified

02

Differences observed at 23.2 eV between datasets

03

Resonance parameters align with some experimental data

Abstract

Multiple isotopes of samarium element are the isotopes produced by the s process, and 154Sm is produced by the r process. In addition, 144Sm is p nuclei in nuclear astrophysics. The measurement of these can help us to better understand the results of relevant photonuclear reaction experiments. On the other hand, 149Sm is a 235U fission product with a 1% yield, its cross sections are important to reactor neutronics. In this work, the neutron capture yield of the natural samarium target was measured at the back-streaming white neutron beamline (Back-n) of the China Spallation Neutron Source (CSNS), and the resonance parameters were analyzed by SAMMY code. The resonance peaks and the neutron separation energies contributed by the different isotopes are considered individually. The results of the capture yield found signs of the possibility of two resonance peaks at 8 eV, which awaits…

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Taxonomy

TopicsNuclear Physics and Applications · Nuclear reactor physics and engineering · Nuclear physics research studies