Absolute partial ϒ-ray cross sections in 238U(n, xny) reactions

Nikolaos Fotiades; Glen D. Johns; Ronald O. Nelson; Mark B. Chadwick; Matthew Devlin; Wesley S. Wilburn; Phillip G. Young; Daniel E. Archer; John A. Becker; Lee A. Bernstein; Christopher A. McGrath; Paul E. Garrett; Dennis P. McNabb; Walid Younes

doi:10.1080/00223131.2002.10875082

Absolute partial ϒ-ray cross sections in ²³⁸U(n, xny) reactions

Nikolaos Fotiades, Glen D. Johns, Ronald O. Nelson, Mark B. Chadwick, Matthew Devlin, Wesley S. Wilburn, Phillip G. Young, Daniel E. Archer, John A. Becker, Lee A. Bernstein, Christopher A. McGrath, Paul E. Garrett, Dennis P. McNabb, Walid Younes

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Measurements of discrete ϒ-ray spectra have been carried out as a function of incident-neutron energy for nuclei populated in ²³⁸U(n, xnϒ (x ≤ 4) reactions. The GEANIE spectrometer, comprised of 26 Ge detectors (11 planar and 15 coaxial), was used to detect ϒ-rays. Neutrons were provided by the “white” neutron source of the Los Alamos Neutron Science Center’s WNR facility. The energy of the incident neutrons was determined using the time-of-flight technique. Absolute cross sections were determined for emission of several ϒ-rays from low-lying states of ^235-238U isotopes (spin up to 10ħ and excitation energy up to ˜1 MeV) as a function of incident-neutron energy (1 MeV < E_n 100 MeV). Uncertainties associated with the spectroscopic analysis of the data are discussed. Predictions of partial ϒ-ray cross sections from GNASH calculations up to neutron energy E_n = 30 MeV are compared to the experimental results and are generally in good agreement. Combining the experimental results with the predictions of the nuclear reaction modeling provides a measurement of the ²³⁸U(n, n’) reaction cross section and validate this technique for determining reaction cross sections using γ-ray spectroscopy.

Original language	English
Pages (from-to)	234-237
Number of pages	4
Journal	Journal of Nuclear Science and Technology
Volume	39
DOIs	https://doi.org/10.1080/00223131.2002.10875082
State	Published - Aug 2002
Externally published	Yes

Keywords

Germanium-detector array spectrometer
Measurement
Neutron-induced gamma-ray cross sections
Uranium 238

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10.1080/00223131.2002.10875082

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Fotiades, N., Johns, G. D., Nelson, R. O., Chadwick, M. B., Devlin, M., Wilburn, W. S., Young, P. G., Archer, D. E., Becker, J. A., Bernstein, L. A., McGrath, C. A., Garrett, P. E., McNabb, D. P., & Younes, W. (2002). Absolute partial ϒ-ray cross sections in ²³⁸U(n, xny) reactions. Journal of Nuclear Science and Technology, 39, 234-237. https://doi.org/10.1080/00223131.2002.10875082

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title = "Absolute partial ϒ-ray cross sections in 238U(n, xny) reactions",

abstract = "Measurements of discrete ϒ-ray spectra have been carried out as a function of incident-neutron energy for nuclei populated in 238U(n, xnϒ (x ≤ 4) reactions. The GEANIE spectrometer, comprised of 26 Ge detectors (11 planar and 15 coaxial), was used to detect ϒ-rays. Neutrons were provided by the “white” neutron source of the Los Alamos Neutron Science Center{\textquoteright}s WNR facility. The energy of the incident neutrons was determined using the time-of-flight technique. Absolute cross sections were determined for emission of several ϒ-rays from low-lying states of 235-238U isotopes (spin up to 10ħ and excitation energy up to ˜1 MeV) as a function of incident-neutron energy (1 MeV < En 100 MeV). Uncertainties associated with the spectroscopic analysis of the data are discussed. Predictions of partial ϒ-ray cross sections from GNASH calculations up to neutron energy En = 30 MeV are compared to the experimental results and are generally in good agreement. Combining the experimental results with the predictions of the nuclear reaction modeling provides a measurement of the 238U(n, n{\textquoteright}) reaction cross section and validate this technique for determining reaction cross sections using γ-ray spectroscopy.",

keywords = "Germanium-detector array spectrometer, Measurement, Neutron-induced gamma-ray cross sections, Uranium 238",

author = "Nikolaos Fotiades and Johns, {Glen D.} and Nelson, {Ronald O.} and Chadwick, {Mark B.} and Matthew Devlin and Wilburn, {Wesley S.} and Young, {Phillip G.} and Archer, {Daniel E.} and Becker, {John A.} and Bernstein, {Lee A.} and McGrath, {Christopher A.} and Garrett, {Paul E.} and McNabb, {Dennis P.} and Walid Younes",

year = "2002",

month = aug,

doi = "10.1080/00223131.2002.10875082",

language = "English",

volume = "39",

pages = "234--237",

journal = "Journal of Nuclear Science and Technology",

issn = "0022-3131",

publisher = "Taylor and Francis Group",

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T1 - Absolute partial ϒ-ray cross sections in 238U(n, xny) reactions

AU - Fotiades, Nikolaos

AU - Johns, Glen D.

AU - Nelson, Ronald O.

AU - Chadwick, Mark B.

AU - Devlin, Matthew

AU - Wilburn, Wesley S.

AU - Young, Phillip G.

AU - Archer, Daniel E.

AU - Becker, John A.

AU - Bernstein, Lee A.

AU - McGrath, Christopher A.

AU - Garrett, Paul E.

AU - McNabb, Dennis P.

AU - Younes, Walid

PY - 2002/8

Y1 - 2002/8

N2 - Measurements of discrete ϒ-ray spectra have been carried out as a function of incident-neutron energy for nuclei populated in 238U(n, xnϒ (x ≤ 4) reactions. The GEANIE spectrometer, comprised of 26 Ge detectors (11 planar and 15 coaxial), was used to detect ϒ-rays. Neutrons were provided by the “white” neutron source of the Los Alamos Neutron Science Center’s WNR facility. The energy of the incident neutrons was determined using the time-of-flight technique. Absolute cross sections were determined for emission of several ϒ-rays from low-lying states of 235-238U isotopes (spin up to 10ħ and excitation energy up to ˜1 MeV) as a function of incident-neutron energy (1 MeV < En 100 MeV). Uncertainties associated with the spectroscopic analysis of the data are discussed. Predictions of partial ϒ-ray cross sections from GNASH calculations up to neutron energy En = 30 MeV are compared to the experimental results and are generally in good agreement. Combining the experimental results with the predictions of the nuclear reaction modeling provides a measurement of the 238U(n, n’) reaction cross section and validate this technique for determining reaction cross sections using γ-ray spectroscopy.

AB - Measurements of discrete ϒ-ray spectra have been carried out as a function of incident-neutron energy for nuclei populated in 238U(n, xnϒ (x ≤ 4) reactions. The GEANIE spectrometer, comprised of 26 Ge detectors (11 planar and 15 coaxial), was used to detect ϒ-rays. Neutrons were provided by the “white” neutron source of the Los Alamos Neutron Science Center’s WNR facility. The energy of the incident neutrons was determined using the time-of-flight technique. Absolute cross sections were determined for emission of several ϒ-rays from low-lying states of 235-238U isotopes (spin up to 10ħ and excitation energy up to ˜1 MeV) as a function of incident-neutron energy (1 MeV < En 100 MeV). Uncertainties associated with the spectroscopic analysis of the data are discussed. Predictions of partial ϒ-ray cross sections from GNASH calculations up to neutron energy En = 30 MeV are compared to the experimental results and are generally in good agreement. Combining the experimental results with the predictions of the nuclear reaction modeling provides a measurement of the 238U(n, n’) reaction cross section and validate this technique for determining reaction cross sections using γ-ray spectroscopy.

KW - Germanium-detector array spectrometer

KW - Measurement

KW - Neutron-induced gamma-ray cross sections

KW - Uranium 238

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EP - 237

JO - Journal of Nuclear Science and Technology

JF - Journal of Nuclear Science and Technology

ER -

Absolute partial ϒ-ray cross sections in ²³⁸U(n, xny) reactions

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Keywords

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