Energy dependence of mass, charge, isotopic, and energy distributions in neutron-induced fission of U 235 and Pu 239

Abstract

The mass, charge, isotopic, and kinetic-energy distributions of fission fragments are studied within an improved scission-point statistical model in the reactions U235+n and Pu239+n at different energies of the incident neutron. The charge and mass distributions of the electromagnetic- and neutron-induced fission of Ra214,218,U230,232,238 are also shown. The available experimental data are well reproduced and the energy-dependencies of the observable characteristics of fission are predicted for future experiments.

Original language	English
Article number	054602
Journal	Physical Review C - Nuclear Physics
Volume	93
Issue number	5
DOIs	https://doi.org/10.1103/PhysRevC.93.054602
Publication status	Published - 2 May 2016

ASJC Scopus subject areas

Nuclear and High Energy Physics

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10.1103/PhysRevC.93.054602

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Pasca, H., Andreev, A. V., Adamian, G. G., Antonenko, N. V., & Kim, Y. (2016). Energy dependence of mass, charge, isotopic, and energy distributions in neutron-induced fission of U 235 and Pu 239. Physical Review C - Nuclear Physics, 93(5), [054602]. https://doi.org/10.1103/PhysRevC.93.054602

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abstract = "The mass, charge, isotopic, and kinetic-energy distributions of fission fragments are studied within an improved scission-point statistical model in the reactions U235+n and Pu239+n at different energies of the incident neutron. The charge and mass distributions of the electromagnetic- and neutron-induced fission of Ra214,218,U230,232,238 are also shown. The available experimental data are well reproduced and the energy-dependencies of the observable characteristics of fission are predicted for future experiments.",

author = "H. Pasca and Andreev, {A. V.} and Adamian, {G. G.} and Antonenko, {N. V.} and Y. Kim",

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AU - Antonenko, N. V.

AU - Kim, Y.

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AB - The mass, charge, isotopic, and kinetic-energy distributions of fission fragments are studied within an improved scission-point statistical model in the reactions U235+n and Pu239+n at different energies of the incident neutron. The charge and mass distributions of the electromagnetic- and neutron-induced fission of Ra214,218,U230,232,238 are also shown. The available experimental data are well reproduced and the energy-dependencies of the observable characteristics of fission are predicted for future experiments.

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