Efrem S. Soukhovitski scite author profile

Efrem S. Soukhovitski

2Publications

0Citation Statements Received

23Citation Statements Given

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Affiliations

Joint Institute for Power and Nuclear Research

Publications

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A Lane consistent optical model potential for nucleon scattering on actinide nuclei with extended coupling

Quesada

Capote

Soukhovitski

et al. 2016

EPJ Web of Conferences

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Abstract. An extension for odd-A actinides of a previously derived dispersive coupledchannel optical model potential (OMP) for 238 U and 232 Th nuclei is presented. It is used to fit simultaneously all the available experimental databases including neutron strength functions for nucleon scattering on 232 Th , 233,235,238 U and 239 Pu nuclei. Quasi-elastic (p,n) scattering data on 232 Th and 238 U to the isobaric analogue states of the target nucleus are also used to constrain the isovector part of the optical potential. For even-even (odd) actinides almost all low-lying collective levels below 1 MeV (0.5 MeV) of excitation energy are coupled. OMP parameters show a smooth energy dependence and energy independent geometry.

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Soft-Rotator Coupled Channels Global Optical Potential for A=24–122 Mass Region Nuclides up to 200-MeV Incident Nucleon Energies

Soukhovitski¹,

Chiba²,

Lee³

2005

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Thermal neutron capture cross sections of long-lived nuclei measured by activation AIP Conf. Abstract.A coupled-channels optical model with a coupling scheme based on nuclear wave functions of the soft-rotator model was applied to analyze experimental nucleon-nucleus interaction data for even-even nuclides with mass number A=24-122. We found that all the available data (total cross sections, angular distributions of elastically and inelastically scattered nucleons, and reaction cross sections) for these nuclides can be described to a good accuracy using an optical potential having smooth dependencies of potential values, radii, and diffuseness on the mass number. The individual properties of the target nuclides are accounted for by individuality of the nuclear Hamiltonian parameters, adjusted to reproduce the low-lying collective level structure, Fermi energies, and deformation parameters.

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