Showing papers in "Nuclear Data Sheets in 2014"
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TL;DR: The FLUKA Monte Carlo code as discussed by the authors is used extensively at CERN for all beam-machine interactions, radioprotection calculations and facility design of forthcoming projects, which requires the code to be consistently reliable over the entire energy range (from MeV to TeV) for all projectiles.
1,511 citations
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TL;DR: The International Network of Nuclear Reaction Data Centres (NRDC) coordinated by the IAEA Nuclear Data Section (NDS) successfully collaborates in the maintenance and development of the EXFOR library as discussed by the authors.
570 citations
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TL;DR: NuShellX@MSU as discussed by the authors connects to the ENSDF data files for automatic comparisons to energy level data and operator overlaps provide predictions for spectroscopic factors, two-nucleon transfer amplitudes, nuclear moments, gamma decay and beta decay.
397 citations
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TL;DR: JANIS is software developed to facilitate the visualization and manipulation of nuclear data, giving access to evaluated data libraries, and to the EXFOR and CINDA databases.
165 citations
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Los Alamos National Laboratory1, Nuclear Energy Agency2, Brookhaven National Laboratory3, International Atomic Energy Agency4, National Institute of Standards and Technology5, Rensselaer Polytechnic Institute6, Oak Ridge National Laboratory7, Karlsruhe Institute of Technology8, Japan Atomic Energy Agency9, Ohio University10, Jožef Stefan Institute11, Nuclear Research and Consultancy Group12, Lawrence Livermore National Laboratory13, Argonne National Laboratory14, Idaho National Laboratory15, Institute for Reference Materials and Measurements16, Chalk River Laboratories17, Joint Institute for Nuclear Research18, Culham Centre for Fusion Energy19
TL;DR: The paper summarizes a program of nuclear science and computational work needed to create the new CIELO nuclear data evaluations and identifies discrepancies between various evaluations of the highest priority isotopes.
103 citations
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Idaho National Laboratory1, Argonne National Laboratory2, Organisation for Economic Co-operation and Development3, National Nuclear Data Center4, Japan Atomic Energy Agency5, Institut de radioprotection et de sûreté nucléaire6, KAERI7, Jožef Stefan Institute8, Paul Scherrer Institute9, Oak Ridge National Laboratory10, Institute for Reference Materials and Measurements11, Nuclear Research and Consultancy Group12, Purdue University13
TL;DR: The paper provides the analysis of the most important results of the adjustment of the main nuclear data of 11 major isotopes in a 33-group energy structure.
89 citations
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TL;DR: The last new features of the code in terms of experimental, theoretical and interface aspects are presented in this paper and make it possible for CONRAD to currently perform evaluations from 0 to 20 MeV.
63 citations
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TL;DR: In this article, the authors presented a level scheme for 210 Au, 210 Hg, 210 Tl, 210 Pb, 210 Bi, 210 Po, 210 At, 210 Rn, 210 Fr, 210 Ra, 210 Ac, and 210 Th and corresponding level schemes from radioactive decay and reaction studies.
60 citations
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TL;DR: The experimental nuclear structure data available through October 2013 have been reviewed in this article, where a summary of information obtained in various reaction and decay experiments is presented, together with adopted level schemes.
44 citations
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TL;DR: In this article, the authors evaluated experimental data for 13 known nuclides of mass 85 (Zn, Ga, Ge, As, Se, Br, Kr, Rb, Sr, Y, Zr, Nb, Mo).
40 citations
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TL;DR: The KADoNiS project as discussed by the authors is an online database for cross sections relevant for nucleosynthesis in the s-process and the γ process, which contains cross sections with relevance to heavy ion nucleosynthetic.
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TL;DR: In this article, experimental data on ground-and excited-state properties for all known nuclei with mass number A = 69 have been compiled and evaluated, and level and decay schemes, as well as tables of nuclear properties, are given in detail.
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TL;DR: In this paper, the experimental spectroscopic data for known nuclides of mass number 129 (Ag, Cd, In, Sn, Sb, Te, I, Xe, Cs, Ba, La, Ce, Pr, Nd, Pm, Sm) have been evaluated and presented together with adopted properties for levels and γ rays.
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TL;DR: In this paper, a rotational-vibrational dispersive optical model potential coupling the low-lying collective bands of vibrational character observed in even-even actinides is proposed.
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TL;DR: The Nuclear Science References (NSR) database as mentioned in this paper is the world's only comprehensive source of easily accessible low and intermediate-energy nuclear physics bibliographic information for more than 210,000 articles since the beginning of nuclear science.
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TL;DR: A predictive approach based on ab initio quantum mechanics and/or classical molecular dynamics simulations has been formulated to calculate the scattering law, S ( κ ⇀, ω ), and the thermal neutron scattering cross sections of materials.
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TL;DR: Spectroscopic data and level schemes from radioactive decay and nuclear reaction studies are presented in this article for all nuclei with mass number A=239 in a relatively small amount of new data has been reported since the previous evaluation in 2003.
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TL;DR: The evaluated spectroscopic data are presented for known nuclides of mass 228 (Ac, At, Fr, Np, Pa, Pu, Ra, Rn, Th, and U) as discussed by the authors.
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TL;DR: In this paper, the authors presented a detailed analysis of all nuclei with mass number A=235 with respect to the ground state rotational band 5/2[642] up to Jπ=(53/2+).
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Centre national de la recherche scientifique1, University of Caen Lower Normandy2, DSM3, University of Strasbourg4, École des mines de Nantes5, Karlsruhe Institute of Technology6, Uppsala University7, Institute for Reference Materials and Measurements8, Örebro University9, University of Manchester10, Culham Centre for Fusion Energy11
TL;DR: The Neutrons For Science (NFS) facility is a component of SPIRAL-2 laboratory under construction at Caen (France), dedicated to the production of high intensity Radioactive Ions Beams (...
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TL;DR: NUBASE is a database containing the recommended values for the main properties of all known nuclides in their ground and excited isomeric states as discussed by the authors, which has been widely used in the nuclear science community.
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TL;DR: In this paper, a summary of information obtained in various reaction and decay experiments is presented, together with data tables and adopted level schemes for experimentally investigated nuclides of mass 141 (Te, I, Xe, Cs, Ba, La, Ce, Pr, Nd, Pm, Sm, Eu, Gd, Tb, Dy, and Ho).
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TL;DR: In this paper, the experimental structure and decay data for all nuclides with mass number A=195 (Re, Os, Ir, Pt, Au, Hg, Tl, Pb, Bi, Po, At, Rn) have been revised, updated, and incorporated into the ENSDF data file.
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TL;DR: In this article, the time dependence of the Faraday cup current is measured by measuring the current generated by the collection of protons scattered from a thin CH 2 foil many meters from the nuclear device into a Faraday Cup.
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TL;DR: Ame2012 as discussed by the authors is a major step in the history of the 60-year old atomic mass evaluation based on the method developed by Wapstra, and it includes all material available to date.
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TL;DR: In this paper, a simple method has been developed to extrapolate measured first-chance fissionproduct average fragment total kinetic energies to higher energies where second-, third-, and fourth chance fission are of importance.
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TL;DR: In this article, the Gogny force was used to improve the predictive power of nucleon-nucleon interaction. But the Gogy force is not suitable for the case of exotic nuclei.
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TL;DR: In this paper, the inelastic thermal neutron scattering cross-sections of graphite are calculated using the NJOY code system using the power spectrum of the MD velocity autocorrelation functions.
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TL;DR: In this article, the European Lead-Cooled Training Reactor (ELECTRA) has been proposed as a training reactor for fast systems within the Swedish nuclear program, which is a low-power fast reactor cooled by pure liquid lead.
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TL;DR: Two new and faster Monte Carlo methods for the propagation of nuclear data uncertainties in Monte Carlo nuclear simulations are presented, addressing the main drawback of the original Total Monte Carlo method - the necessary large time multiplication factor compared to a single calculation.