NSR Query Results
Output year order : Descending NSR database version of April 29, 2024. Search: Author = R.D.Levine Found 5 matches. 1986LE09 Nucl.Phys. A454, 338 (1986) R.D.Levine, D.R.Napoli, D.Otero, A.Plastino, A.N.Proto Maximum Entropy Approach to Nuclear Fission Processes RADIOACTIVITY 246,248Cm, 250,252,254Cf, 256Fm(SF); calculated nucleon energy release following fission, internal energy, post scission neutron number, chemical potential; deduced nucleon number conservation constraint importance. Maximum entropy approach. NUCLEAR REACTIONS 233,235U, 239Pu(n, F), E=thermal; calculated fission fragment mass yield, chemical potential vs fragment mass. 226Ra(p, xnF), E not given; calculated ternary fission fragment yield, chemical potential vs mass. 229Th(n, F), E not given; calculated pairing effects. 245Cm, 249Cf, 254Es(n, F), E not given; calculated nucleon energy release following fission, internal energy, post scission neutron number, chemical potential; deduced nucleon number conservation constraint importance. Maximum entropy approach.
doi: 10.1016/0375-9474(86)90272-1
1983EN04 Phys.Rev. C28, 2321 (1983) Branching Ratios in Heavy Ion Reactions: Constrained phase space approach NUCLEAR REACTIONS 232Th(16O, X), E=105, 125 MeV; 232Th(15N, X), E=86, 95 MeV; 54Cr(14N, X), E=90 MeV; 181Ta(35Cl, X), E=205 MeV; calculated heavy-ion branching fractions for X=9,10Be, 11,12,13B, 12,13,14,15C, 15N, 30,31Si, 31,32,33P, 33,34,35S, 36,37Cl. 232Th(16O, 12C), (16O, 13C), (16O, 14C), (16O, 15C), E=105 MeV; calculated ejectile energy distribution. Constrained phase space approach.
doi: 10.1103/PhysRevC.28.2321
1982EN05 Phys.Lett. 117B, 279 (1982) Y.M.Engel, E.Friedman, R.D.Levine The Maximun Entropy Determination of Nuclear Densities of Calcium Isotopes from Elastic Scattering of Alpha Particles NUCLEAR STRUCTURE 40,42,44,48Ca; calculated rms radius. Fourier-Bessel analysis, maximum entropy formalism, folding model potential radial moment constraint.
doi: 10.1016/0370-2693(82)90718-3
1979AL22 Phys.Rev. C20, 1789 (1979) Y.Alhassid, R.D.Levine, J.S.Karp, S.G.Steadman Information-Theoretic Analysis of Energy Disposal in Heavy-Ion Transfer Reactions NUCLEAR REACTIONS 232Th(16O, X), E=105 MeV; Mo(14N, X), E=97 MeV; 53Cr(15N, X), E=90 MeV; 232Th(15N, X), E=145 MeV; 232Th(22Ne, X), E=174 MeV; 197Au(16O, X), E=218, 250 MeV; Ni(16O, 12C), E=96 MeV; calculated energy spectra, Q-dependence for X from 7Li to 15O. Constrained statistical approach to multinucleon transfer.
doi: 10.1103/PhysRevC.20.1789
1978LE15 Phys.Rev.Lett. 41, 1537 (1978) R.D.Levine, S.G.Steadman, J.S.Karp, Y.Alhassid Heavy-Ion Transfer Reactions to the Continuum: Surprisal Analysis and The Condition of Maximal Entropy NUCLEAR REACTIONS 232Th(16O, 16N), (16O, 15N), (16O, 14C), (16O, 13C), (16O, 12C), 232Th(16O, 11B), E=105 MeV; measured σ.
doi: 10.1103/PhysRevLett.41.1537
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