Antisymmetrization effects and the form factor of the real part of theα-nucleus potential
- 1 July 1978
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review C
- Vol. 18 (1) , 114-118
- https://doi.org/10.1103/physrevc.18.114
Abstract
Antisymmetrization effects in the -nucleus interaction are investigated on the basis of a microscopic model in an one nucleon exchange approximation. It influences the form factor, increasing the halfway radius and decreasing the diffuseness as compared with the direct term of the potential only. Antisymmetrization preserves the shape of the potential which can be parametrized by a Woods-Saxon squared form. The phenomenological potential with the energy independent form factor of the above shape fits experimental data in a wide energy region.
Keywords
This publication has 21 references indexed in Scilit:
- A new interaction for heavy-ion scatteringPhysics Letters B, 1976
- Importance of the non-open N-N force and of the exchange potential for elastic scattering of alpha particlesPhysics Letters B, 1976
- Folding-model analysis of elastic alpha-nucleus scatteringPhysics Letters B, 1975
- Nucleus-nucleus optical potentialPhysical Review C, 1975
- Evidence for an energy dependent form factor of the α-particle optical potentialPhysics Letters B, 1974
- Energy dependence of alpha-particle and heavy-ion optical potentialsPhysics Letters B, 1974
- Energy Dependence of Elastic-Particle Scattering: Microscopic ModelPhysical Review C, 1972
- Nuclear variational calculations with improved mixed-density approximationNuclear Physics A, 1971
- Real part of the alpha-nucleus potential obtained by the double folding procedurePhysics Letters B, 1970
- A Simplification of the Hartree-Fock MethodPhysical Review B, 1951