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

UR - https://www.scopus.com/pages/publications/85010555674

U2 - 10.1080/00223131.2002.10875082

DO - 10.1080/00223131.2002.10875082

M3 - Article

AN - SCOPUS:85010555674

SN - 0022-3131

VL - 39

SP - 234

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

Abstract

Keywords

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