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Publication Details
AFRICAN RESEARCH NEXUS
SHINING A SPOTLIGHT ON AFRICAN RESEARCH
physics and astronomy
Folding-model analysis of elastic and inelastic α-particle scattering using a density-dependent force
Nuclear Physics, Section A, Volume 425, No. 2, Year 1984
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Description
A folding model with a density-dependent form of the semi-realistic M3Y effective interaction is applied to α-particle scattering. A previous analysis of elastic scattering at 140 and 172 MeV is now applied to data at other energies from 25 to 120 MeV. The model is also extended to inelastic scattering, using both the collective model and a valence-plus-core-polarization model for the transition densities. The proton transition densities were normalized to measured B(EL) values. When necessary, the neutron transition densities were rescaled to fit the (α, α′) data, providing a source of information on the neutron contributions. The neutron transition multipole moments thus obtained are compared to those derived from (p, p′) data at 800 MeV, as well as from other sources. © 1984.
Authors & Co-Authors
Kobos, A. M.
United Kingdom, Oxford
University of Oxford
Brown, B. Alex
United States, East Lansing
Michigan State University
Lindsay, R.
United Kingdom, Warrington
Daresbury Laboratory
Satchler, G. Ray
United States, Oak Ridge
Oak Ridge National Laboratory
Statistics
Citations: 322
Authors: 4
Affiliations: 4
Identifiers
Doi:
10.1016/0375-9474(84)90073-3
ISSN:
03759474