First near-threshold measurements of the C 13 (α,n1) O 16 reaction for low-background-environment characterization

R. J. Deboer; A. Gula; M. Febbraro; K. Brandenburg; C. R. Brune; J. Görres; Gy Gyürky; R. Kelmar; K. Manukyan; Z. Meisel; D. Odell; M. T. Pigni; Shahina; E. Stech; W. Tan; M. Wiescher

doi:10.1103/PhysRevC.106.055808

First near-threshold measurements of the C 13 (α,n1) O 16 reaction for low-background-environment characterization

R. J. Deboer, A. Gula, M. Febbraro, K. Brandenburg, C. R. Brune, J. Görres, Gy Gyürky, R. Kelmar, K. Manukyan, Z. Meisel, D. Odell, M. T. Pigni, Shahina, E. Stech, W. Tan, M. Wiescher

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3 Scopus citations

Abstract

The modeling of background sources in large volume detection systems requires accurate nuclear cross sections for a variety of reactions. Among the most important are (α,n) on light nuclei, where α particles, up to ≈9 MeV, are produced from the decay of actinides present in trace amounts in detection and structural material. In order to model the neutron energy spectra and production of other secondary particles, the partial cross sections are needed. Yet very little experimental data exists for these partial cross sections because past measurements, hampered by the experimental challenges of neutron detection, have focused mostly on total reaction cross section measurements. Here the partial cross section of the C13(α,n1)O16 reaction is reported for the first time. The measurements were made near the reaction threshold using a high energy resolution helium spectrometer. The measurements show a rapidly increasing cross section, which quickly becomes a significant fraction of the total reaction cross section. Measurements are compared with previous theory estimates and differences of more than an order of magnitude are found. A comparison is made with new total cross section measurements and the current level of consistency is demonstrated.

Original language	English
Article number	055808
Journal	Physical Review C
Volume	106
Issue number	5
DOIs	https://doi.org/10.1103/PhysRevC.106.055808
State	Published - Nov 2022

Funding

This research utilized resources from the Notre Dame Center for Research Computing and was supported by the National Science Foundation through Grant No. Phys-2011890, and the Joint Institute for Nuclear Astrophysics through Grant No. PHY-1430152 (JINA Center for the Evolution of the Elements).

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10.1103/PhysRevC.106.055808

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Deboer, R. J., Gula, A., Febbraro, M., Brandenburg, K., Brune, C. R., Görres, J., Gyürky, G., Kelmar, R., Manukyan, K., Meisel, Z., Odell, D., Pigni, M. T., Shahina, Stech, E., Tan, W., & Wiescher, M. (2022). First near-threshold measurements of the C 13 (α,n1) O 16 reaction for low-background-environment characterization. Physical Review C, 106(5), Article 055808. https://doi.org/10.1103/PhysRevC.106.055808

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title = "First near-threshold measurements of the C 13 (α,n1) O 16 reaction for low-background-environment characterization",

abstract = "The modeling of background sources in large volume detection systems requires accurate nuclear cross sections for a variety of reactions. Among the most important are (α,n) on light nuclei, where α particles, up to ≈9 MeV, are produced from the decay of actinides present in trace amounts in detection and structural material. In order to model the neutron energy spectra and production of other secondary particles, the partial cross sections are needed. Yet very little experimental data exists for these partial cross sections because past measurements, hampered by the experimental challenges of neutron detection, have focused mostly on total reaction cross section measurements. Here the partial cross section of the C13(α,n1)O16 reaction is reported for the first time. The measurements were made near the reaction threshold using a high energy resolution helium spectrometer. The measurements show a rapidly increasing cross section, which quickly becomes a significant fraction of the total reaction cross section. Measurements are compared with previous theory estimates and differences of more than an order of magnitude are found. A comparison is made with new total cross section measurements and the current level of consistency is demonstrated.",

author = "Deboer, \{R. J.\} and A. Gula and M. Febbraro and K. Brandenburg and Brune, \{C. R.\} and J. G{\"o}rres and Gy Gy{\"u}rky and R. Kelmar and K. Manukyan and Z. Meisel and D. Odell and Pigni, \{M. T.\} and Shahina and E. Stech and W. Tan and M. Wiescher",

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year = "2022",

month = nov,

doi = "10.1103/PhysRevC.106.055808",

language = "English",

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journal = "Physical Review C",

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Deboer, RJ, Gula, A, Febbraro, M, Brandenburg, K, Brune, CR, Görres, J, Gyürky, G, Kelmar, R, Manukyan, K, Meisel, Z, Odell, D, Pigni, MT, Shahina, Stech, E, Tan, W & Wiescher, M 2022, 'First near-threshold measurements of the C 13 (α,n1) O 16 reaction for low-background-environment characterization', Physical Review C, vol. 106, no. 5, 055808. https://doi.org/10.1103/PhysRevC.106.055808

TY - JOUR

T1 - First near-threshold measurements of the C 13 (α,n1) O 16 reaction for low-background-environment characterization

AU - Deboer, R. J.

AU - Gula, A.

AU - Febbraro, M.

AU - Brandenburg, K.

AU - Brune, C. R.

AU - Görres, J.

AU - Gyürky, Gy

AU - Kelmar, R.

AU - Manukyan, K.

AU - Meisel, Z.

AU - Odell, D.

AU - Pigni, M. T.

AU - Shahina,

AU - Stech, E.

AU - Tan, W.

AU - Wiescher, M.

PY - 2022/11

Y1 - 2022/11

N2 - The modeling of background sources in large volume detection systems requires accurate nuclear cross sections for a variety of reactions. Among the most important are (α,n) on light nuclei, where α particles, up to ≈9 MeV, are produced from the decay of actinides present in trace amounts in detection and structural material. In order to model the neutron energy spectra and production of other secondary particles, the partial cross sections are needed. Yet very little experimental data exists for these partial cross sections because past measurements, hampered by the experimental challenges of neutron detection, have focused mostly on total reaction cross section measurements. Here the partial cross section of the C13(α,n1)O16 reaction is reported for the first time. The measurements were made near the reaction threshold using a high energy resolution helium spectrometer. The measurements show a rapidly increasing cross section, which quickly becomes a significant fraction of the total reaction cross section. Measurements are compared with previous theory estimates and differences of more than an order of magnitude are found. A comparison is made with new total cross section measurements and the current level of consistency is demonstrated.

AB - The modeling of background sources in large volume detection systems requires accurate nuclear cross sections for a variety of reactions. Among the most important are (α,n) on light nuclei, where α particles, up to ≈9 MeV, are produced from the decay of actinides present in trace amounts in detection and structural material. In order to model the neutron energy spectra and production of other secondary particles, the partial cross sections are needed. Yet very little experimental data exists for these partial cross sections because past measurements, hampered by the experimental challenges of neutron detection, have focused mostly on total reaction cross section measurements. Here the partial cross section of the C13(α,n1)O16 reaction is reported for the first time. The measurements were made near the reaction threshold using a high energy resolution helium spectrometer. The measurements show a rapidly increasing cross section, which quickly becomes a significant fraction of the total reaction cross section. Measurements are compared with previous theory estimates and differences of more than an order of magnitude are found. A comparison is made with new total cross section measurements and the current level of consistency is demonstrated.

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JO - Physical Review C

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M1 - 055808

ER -

First near-threshold measurements of the C 13 (α,n1) O 16 reaction for low-background-environment characterization

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