A consistent set of neutron kerma coefficients from thermal to 150 MeV for biologically important materials

Chadwick, M.B.; Barschall, H. H.; Caswell, Randall S.; DeLuca, P.M.; Hale, Gerald M.; Jones, D. T. L.; MacFarlane, R.E.; Meulders, Jean‐Pierre; Schuhmacher, H.; Schrewe, U.J.; Wambersie, André; Young, P.G.

doi:10.1118/1.598601

Cited by 87 publications

(103 citation statements)

References 62 publications

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“…Similarly, the calculated total DDCS of outgoing neutrons at other angles also agree well with the experimental data. It is worth mentioning that the contributions of two predicted energy levels 9.0(5/2 + ) and 10.0(5/2 + ) of 9 Be are added to obtain the DDCS of the total outgoing neutron as shown the solid lines in Figs. 3 and 4 [5] and Figs.…”

Section: Resultsmentioning

confidence: 99%

“…The model calculations of the DDCS of the total outgoing neutron had been performed for reactions such as 12 C(n, xn), 9 Be(n, xn), 16 O(n, xn) and 9 Be(p,xn). The calculated results for the different outgoing angles at different incident energies (taking E n = 18 MeV example in this paper) agree fairly well with the measurements as shown in Figs.…”

Section: Resultsmentioning

confidence: 99%

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Statistical theory of light nucleus reactions with 1p-shell light nuclei

Xiao-Jun

Zhang

2017

EPJ Web Conf.

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Abstract. The 1p-shell light elements (Li, Be, B, C, N, and O) had long been selected as the most important materials for improving neutron economy in thermal and fast fission reactors and in the design of acceleratordriven spallation neutron sources. A statistical theory of light nucleus reactions (STLN) is proposed to describe the double-differential cross sections for both neutron and light charged particle induced nuclear reactions with 1p-shell light nuclei. The dynamics of STLN is described by the unified Hauser-Feshbach and exciton model, in which the angular momentum and parity conservations are strictly considered in equilibrium and pre-equilibrium processes. The Coulomb barriers of the incoming and outgoing charged particles, which significantly influence the open channels of the reaction, can be reasonably considered in incident channel and different outgoing channels. In kinematics, the recoiling effects in various emission processes are strictly taken into account. The analytical energy and angular spectra of the reaction products in sequential and simultaneous emission processes are obtained in terms of the new integral formula proposed in our recent paper. Taking 12 C(n, xn), 9 Be(n, xn), 16 O(n, xn), and 9 Be(p,xn) reactions as examples, we had calculated the double-differential cross sections of outgoing neutrons and compared with the experimental data. In addition, we had also calculated the partition and total kerma coefficients for 12 C(n, xn) and 16 O(n, xn) reactions, respectively. The existing experimental data can be remarkably well reproduced by STLN, which had been used to set up file-6 in CENDL database.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Statistical theory of light nucleus reactions with 1p-shell light nuclei

Xiao-Jun

Zhang

2017

EPJ Web Conf.

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“…Comparisons of kerma coefficient data for other elements and A150 plastic, and the kerma ratios for carbon to oxygen and ICRU-muscle to A-150 plastic, are given in Refs. [5,7].…”

Section: A Neutron Cross Sections and Kerma Coefficientsmentioning

confidence: 99%

“…A comprehensive description of our calculated kerma coefficients up to 150 MeV for elements and mixtures/compounds important in dosimetry is given in Ref. [7]. In parallel to work on the evaluation of nuclear cross sections, Monte Carlo radiation transport codes are under development to utilize these data.…”

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confidence: 99%

Neutron, proton, and photonuclear cross-sections for radiation therapy and radiation protection

Chadwick¹

1998

Radiation and Environmental Biophysics

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Les Afamos Natlonsl Moratory, an affirmative astiedequal oppertun"kyempleyer, is operated by the Unheraiiy of CMomia for the U.S. Deparbnent of Ene&y under mntract W-740MNG-36. By accaptanca of this article, the publisher rewgnfzes that the U.S. Gwemment retafns a nonexslustie, reya~free license to pubfii or repreduce the pubfried form of thii scmtributien, or to allow others 10 do SO,for U.S. Government purposes. The k Afamos National Laberatmy requests that the pubfkher identify this article aa wxk perfonnad under the auspicas of the U.S. AbstractWe review recent work at Los Alamos to evaluate neutron, proton, and photonuclear cross sections up to 150 MeV (to 250 MeV for protons), based on experimental data and nucIear model calculations. These data are represented in the ENDF format and can be used in computer codes to simulate radiation transport. They permit calculations of absorbed dose in the body from therapy beams, and through use of kerma coefficients allow absorbed dose to be estimated for a given neutron energy distribution. For radiation protection, these data can be used to determine shielding requirements in accelerator environments, and to calculate neutron, proton,~-ray, and radionuclide production. Illui%rative comparisons of the evaluated cross section and kerma coefficient data with measurements are given.

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“…In addition to the aforementioned applications in gas production and material damage, other applications include neutron heating (kerma) for radiation therapy [16,17] and single-event upsets [18,19].…”

Section: Introductionmentioning

confidence: 99%

Measurement and model analysis of(n,xα)cross sections for Cr, Fe,59Co, and
Kunieda
¹
,
Haight
²
,
Kawano
³

et al. 2012
Phys. Rev. C
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Neutron reactions that produce alpha-particles have been investigated experimentally and analyzed by reaction model calculations for incident neutron energies from threshold to 150 MeV on elemental chromium and iron. The cross sections were measured at the Los Alamos Neutron Science Center by direct observation of alpha-particles. Previous data on isotopes 59 Co and 58,60 Ni were also included in the analysis. The model calculations are made for both statistical decay and pre-equilibrium processes. This study particularly focuses on the pre-equilibrium cluster emission, which is described by the clustering exciton model of Iwamoto and Harada. We calculate the alphaparticle formation factors numerically without any approximations that appeared in the original model. The model parameter ∆R, the nuclear surface area where the pickup reaction may occur, is determined by fitting the calculated alpha-particle energy spectra to experimental data. The calculated alpha-particle production cross sections agree well with the measured data, except for the Cr case. With a simple sensitivity study for the level density parameters, it is reported that relatively small changes in the level density parameters improve reproduction of experimental data significantly. Our realistic model calculations for the pre-equilibrium process shed light on uncertainties in the nuclear level densities in the statistical decay calculation.

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A consistent set of neutron kerma coefficients from thermal to 150 MeV for biologically important materials

Cited by 87 publications

References 62 publications

Statistical theory of light nucleus reactions with 1p-shell light nuclei

Statistical theory of light nucleus reactions with 1p-shell light nuclei

Neutron, proton, and photonuclear cross-sections for radiation therapy and radiation protection

Measurement and model analysis of(n,xα)cross sections for Cr, Fe,59Co, and
Kunieda
¹
,
Haight
²
,
Kawano
³

et al. 2012
Phys. Rev. C
Self Cite
26
0
3
0
View full text Add to dashboard Cite

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A consistent set of neutron kerma coefficients from thermal to 150 MeV for biologically important materials

Cited by 87 publications

References 62 publications

Statistical theory of light nucleus reactions with 1p-shell light nuclei

Statistical theory of light nucleus reactions with 1p-shell light nuclei

Neutron, proton, and photonuclear cross-sections for radiation therapy and radiation protection

Measurement and model analysis of(n,xα)cross sections for Cr, Fe,59Co, andKunieda1, Haight2, Kawano3 et al. 2012Phys. Rev. CSelf Cite26030View full textAdd to dashboardCite

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Measurement and model analysis of(n,xα)cross sections for Cr, Fe,59Co, and
Kunieda
¹
,
Haight
²
,
Kawano
³

et al. 2012
Phys. Rev. C
Self Cite
26
0
3
0
View full text Add to dashboard Cite