Direct measurement of Ni 59 (n,p) Co 59 and Ni 59 (n,α) Fe 56 at fast-neutron energies from 500 keV to 10 MeV

S. A. Kuvin; H. Y. Lee; B. Digiovine; C. Eiroa-Lledo; A. Georgiadou; M. Herman; T. Kawano; V. Mocko; S. Mosby; C. Vermeulen; D. Votaw; M. White; L. Zavorka; G. Perdikakis; P. Tsintari; H. I. Kim

doi:10.1103/PhysRevC.105.044608

Direct measurement of Ni 59 (n,p) Co 59 and Ni 59 (n,α) Fe 56 at fast-neutron energies from 500 keV to 10 MeV

S. A. Kuvin, H. Y. Lee, B. Digiovine, C. Eiroa-Lledo, A. Georgiadou, M. Herman, T. Kawano, V. Mocko, S. Mosby, C. Vermeulen, D. Votaw, M. White, L. Zavorka, G. Perdikakis, P. Tsintari, H. I. Kim

STS Project Technical Systems

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Abstract

Nuclear reaction data for neutron induced reactions on unstable nuclei are critical for a wide range of applications spanning studies of nuclear astrophysics, nuclear reactor designs, and radiochemistry diagnostics. However, nuclear data evaluations of the reaction cross sections are largely based on calculations due to the difficulty in performing this class of measurements and the resulting lack of experimental data. For neutron induced charged particle reactions at fast neutron energies, at the MeV scale, these cross section predictions are predominately driven by statistical Hauser-Feshbach calculations. In this work, we present partial and total Ni59(n,p) and Ni59(n,α) cross sections, measured directly with a radioactive Ni59 target, and compare the results to the present nuclear data evaluations. In addition, the results from this work are compared to a recent study of the Ni59(n,xp) reaction cross section that was performed via an indirect surrogate ratio method. The expected energy trend of the cross section, based on the current work, is inconsistent with that of the surrogate work. This calls into question the reliability of that application of the surrogate ratio method and highlights the need for direct measurements on unstable nuclei, when feasible.

Original language	English
Article number	044608
Journal	Physical Review C
Volume	105
Issue number	4
DOIs	https://doi.org/10.1103/PhysRevC.105.044608
State	Published - Apr 2022

Funding

This work benefits from the LANSCE accelerator facility and is supported by the U.S. Department of Energy under Contract No. 89233218CNA000001 and by the Laboratory Directed Research and Development program of Los Alamos National Laboratory under Project No. 20180228ER. The nuclear data library evaluation work that was used to improve the mcnp simulations in this work benefited from the collaboration between LANL and the Korean Atomic Energy Research Institute (KAERI) and was supported by the I-NERI program under Contract No. NRF-2020M2A8A1000930. The authors also acknowledge the help of Paul Koehler (LANL) for facilitating reobtaining the targets for use at LANSCE, and in this study, and for providing relevant reports and background information on them.

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Kuvin, S. A., Lee, H. Y., Digiovine, B., Eiroa-Lledo, C., Georgiadou, A., Herman, M., Kawano, T., Mocko, V., Mosby, S., Vermeulen, C., Votaw, D., White, M., Zavorka, L., Perdikakis, G., Tsintari, P., & Kim, H. I. (2022). Direct measurement of Ni 59 (n,p) Co 59 and Ni 59 (n,α) Fe 56 at fast-neutron energies from 500 keV to 10 MeV. Physical Review C, 105(4), Article 044608. https://doi.org/10.1103/PhysRevC.105.044608

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title = "Direct measurement of Ni 59 (n,p) Co 59 and Ni 59 (n,α) Fe 56 at fast-neutron energies from 500 keV to 10 MeV",

abstract = "Nuclear reaction data for neutron induced reactions on unstable nuclei are critical for a wide range of applications spanning studies of nuclear astrophysics, nuclear reactor designs, and radiochemistry diagnostics. However, nuclear data evaluations of the reaction cross sections are largely based on calculations due to the difficulty in performing this class of measurements and the resulting lack of experimental data. For neutron induced charged particle reactions at fast neutron energies, at the MeV scale, these cross section predictions are predominately driven by statistical Hauser-Feshbach calculations. In this work, we present partial and total Ni59(n,p) and Ni59(n,α) cross sections, measured directly with a radioactive Ni59 target, and compare the results to the present nuclear data evaluations. In addition, the results from this work are compared to a recent study of the Ni59(n,xp) reaction cross section that was performed via an indirect surrogate ratio method. The expected energy trend of the cross section, based on the current work, is inconsistent with that of the surrogate work. This calls into question the reliability of that application of the surrogate ratio method and highlights the need for direct measurements on unstable nuclei, when feasible.",

author = "Kuvin, \{S. A.\} and Lee, \{H. Y.\} and B. Digiovine and C. Eiroa-Lledo and A. Georgiadou and M. Herman and T. Kawano and V. Mocko and S. Mosby and C. Vermeulen and D. Votaw and M. White and L. Zavorka and G. Perdikakis and P. Tsintari and Kim, \{H. I.\}",

note = "Publisher Copyright: {\textcopyright} 2022 American Physical Society.",

year = "2022",

month = apr,

doi = "10.1103/PhysRevC.105.044608",

language = "English",

volume = "105",

journal = "Physical Review C",

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Kuvin, SA, Lee, HY, Digiovine, B, Eiroa-Lledo, C, Georgiadou, A, Herman, M, Kawano, T, Mocko, V, Mosby, S, Vermeulen, C, Votaw, D, White, M, Zavorka, L, Perdikakis, G, Tsintari, P & Kim, HI 2022, 'Direct measurement of Ni 59 (n,p) Co 59 and Ni 59 (n,α) Fe 56 at fast-neutron energies from 500 keV to 10 MeV', Physical Review C, vol. 105, no. 4, 044608. https://doi.org/10.1103/PhysRevC.105.044608

TY - JOUR

T1 - Direct measurement of Ni 59 (n,p) Co 59 and Ni 59 (n,α) Fe 56 at fast-neutron energies from 500 keV to 10 MeV

AU - Kuvin, S. A.

AU - Lee, H. Y.

AU - Digiovine, B.

AU - Eiroa-Lledo, C.

AU - Georgiadou, A.

AU - Herman, M.

AU - Kawano, T.

AU - Mocko, V.

AU - Mosby, S.

AU - Vermeulen, C.

AU - Votaw, D.

AU - White, M.

AU - Zavorka, L.

AU - Perdikakis, G.

AU - Tsintari, P.

AU - Kim, H. I.

PY - 2022/4

Y1 - 2022/4

N2 - Nuclear reaction data for neutron induced reactions on unstable nuclei are critical for a wide range of applications spanning studies of nuclear astrophysics, nuclear reactor designs, and radiochemistry diagnostics. However, nuclear data evaluations of the reaction cross sections are largely based on calculations due to the difficulty in performing this class of measurements and the resulting lack of experimental data. For neutron induced charged particle reactions at fast neutron energies, at the MeV scale, these cross section predictions are predominately driven by statistical Hauser-Feshbach calculations. In this work, we present partial and total Ni59(n,p) and Ni59(n,α) cross sections, measured directly with a radioactive Ni59 target, and compare the results to the present nuclear data evaluations. In addition, the results from this work are compared to a recent study of the Ni59(n,xp) reaction cross section that was performed via an indirect surrogate ratio method. The expected energy trend of the cross section, based on the current work, is inconsistent with that of the surrogate work. This calls into question the reliability of that application of the surrogate ratio method and highlights the need for direct measurements on unstable nuclei, when feasible.

AB - Nuclear reaction data for neutron induced reactions on unstable nuclei are critical for a wide range of applications spanning studies of nuclear astrophysics, nuclear reactor designs, and radiochemistry diagnostics. However, nuclear data evaluations of the reaction cross sections are largely based on calculations due to the difficulty in performing this class of measurements and the resulting lack of experimental data. For neutron induced charged particle reactions at fast neutron energies, at the MeV scale, these cross section predictions are predominately driven by statistical Hauser-Feshbach calculations. In this work, we present partial and total Ni59(n,p) and Ni59(n,α) cross sections, measured directly with a radioactive Ni59 target, and compare the results to the present nuclear data evaluations. In addition, the results from this work are compared to a recent study of the Ni59(n,xp) reaction cross section that was performed via an indirect surrogate ratio method. The expected energy trend of the cross section, based on the current work, is inconsistent with that of the surrogate work. This calls into question the reliability of that application of the surrogate ratio method and highlights the need for direct measurements on unstable nuclei, when feasible.

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DO - 10.1103/PhysRevC.105.044608

M3 - Article

AN - SCOPUS:85129442484

SN - 2469-9985

VL - 105

JO - Physical Review C

JF - Physical Review C

IS - 4

M1 - 044608

ER -

Direct measurement of Ni 59 (n,p) Co 59 and Ni 59 (n,α) Fe 56 at fast-neutron energies from 500 keV to 10 MeV

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