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14 research outputs found

The CIELO collaboration: Progress in international evaluations of neutron reactions on Oxygen, Iron, Uranium and Plutonium

The CIELO collaboration has studied neutron cross sections on nuclides that significantly impact criticality in nuclear technologies – 16O, 56Fe, 235,8U and 239Pu – with the aim of improving the accuracy of the data and resolving previous discrepancies in our understanding. This multi-laboratory pilot project, coordinated via the OECD/NEA Working Party on Evaluation Cooperation (WPEC) Subgroup 40 with support also from the IAEA, has motivated experimental and theoretical work and led to suites of new evaluated libraries that accurately reflect measured data and also perform well in integral simulations of criticality

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EDP Sciences OAI-PMH repository (1.2.0)

Tunnelling through a parabolic barrier coupled to an oscillatory degree of freedom: Application to heavy-ion fusion at sub-barrier energies

Author: Carlson B.V.
Chamon L C
Gasques Leandro
Nobre G.P.A.
Thompson I.J.
Publication venue: 'Elsevier BV'
Publication date: 08/12/2015
Field of study

We performed studies of the transmission through a parabolic barrier coupled to a harmonic oscillator degree of freedom. We propose a model to include the effects of the excitation energy in a context similar to that of the frozen approximation. The model results in accurate approximations for the transmission coefficient and it is tested in the description of the heavy-ion fusion

The Australian National University

Consistent analysis of fusion data without adjustable parameters for a wide variety of heavy-ion systems

Author: Carlson B.V.
Chamon L C
Gasques Leandro
Nobre G.P.A.
Thompson I.J.
Publication venue: 'American Physical Society (APS)'
Publication date: 08/12/2015
Field of study

We have calculated fusion cross sections for 64 heavy-ion systems based on a method that takes into account the couplings to a complete set of states for surface vibrations of the nuclear densities. For the nuclear interaction we have assumed the parameter-free São Paulo potential. The predictions have been obtained without using any adjustable parameter, and are in good agreement with the experimental results for most of the systems, even at sub-barrier energies

The Australian National University

Evaluation of Neutron Reactions on Iron Isotopes for CIELO and ENDF/B-VIII.0

Author: Arcilla R.
Brown D.A.
Capote R.
Carlson B.V.
Danon Y.
Guber K.
Hanlin L.
Herman M.
Jing Q.
Kawano T.
Leal L.
Mughabghab S.F.
Nobre G.P.A.
Plompen A.
Simakov S.P.
Sin M.
Tingjin L.
Trkov A.
Xichao R.
Zhigang G.
Publication venue: 'Elsevier BV'
Publication date: 01/01/2018
Field of study

International audienceA new suite of evaluations for 54,56,57,58 Fe has been developed in the framework of the CIELO international collaboration. New resolved resonance ranges were evaluated for 54 Fe and 57 Fe, while modifications were applied to resonances in 56 Fe. The low energy part of the 56 Fe file is almost totally based on measurements. At higher energies in 56 Fe and in the whole fast neutron range for minor isotopes the evaluation consists of model predictions carefully adjusted to available experimental data. We also make use of the high quality and well experimentally-constrained dosimetry evaluations from the IRDFF library. Special attention was dedicated to the elastic angular distributions, which were found to affect results of the integral benchmarking. The new set of iron evaluations was developed in concert with other CIELO evaluations and they were tested together in the integral experiments before being adopted for the ENDF/B-VIII.0 library

Institute for Radiation Protection and Nuclear Safety (IRSN)

Templates of expected measurement uncertainties

Author: Al-Adili A.
Bernstein L.
Capote R.
Carlson A.D.
Croft S.
Devlin M.
Drosg M.
Duke D.L.
Finch S.
Haight R.C.
Herman M.W.
Kelly K.J.
Koning A.
Lewis A.M.
Lovell A.E.
Marini P.
Matthews E.F.
Montoya K.
Neudecker D.
Nobre G.P.A.
Paris M.
Pierson B.
Pritychenko B.
Sjöstrand H.
Smith D.L.
Snyder L.
Sobes V.
Solders A.
Taieb J.
Talou P.
Vanhoy J.
Wallner A.
Publication venue
Publication date: 10/11/2023
Field of study

The covariance committee of CSEWG (Cross Section Evaluation Working Group) established templates of expected measurement uncertainties for neutron-induced total, (n,γ), neutron-induced charged-particle, and (n,xn) reaction cross sections as well as prompt fission neutron spectra, average prompt and total fission neutron multiplicities, and fission yields. Templates provide a list of what uncertainty sources are expected for each measurement type and observable, and suggest typical ranges of these uncertainties and correlations based on a survey of experimental data, associated literature, and feedback from experimenters. Information needed to faithfully include the experimental data in the nuclear-data evaluation process is also provided. These templates could assist (a) experimenters and EXFOR compilers in delivering more complete uncertainties and measurement information relevant for evaluations of new experimental data, and (b) evaluators in achieving a more comprehensive uncertainty quantification for evaluation purposes. This effort might ultimately lead to more realistic evaluated covariances for nuclear-data applications. In this topical issue, we cover the templates coming out of this CSEWG effort–typically, one observable per paper. This paper here prefaces this topical issue by introducing the concept and mathematical framework of templates, discussing potential use cases, and giving an example of how they can be applied (estimating missing experimental uncertainties of 235U(n,f) average prompt fission neutron multiplicities), and their impact on nuclear-data evaluations

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