Dispersion Relation and the Low-Energy Behavior of the Heavy-Ion Optical Potential
- 18 March 1985
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 54 (11) , 1136-1138
- https://doi.org/10.1103/physrevlett.54.1136
Abstract
A dispersion relation is used to show that the "anomalous" behavior of the real part of the optical potential for + scattering at low energies is an example of a general property of heavy-ion optical potentials at energies approaching the top of the Coulomb barrier, where the flux into nonelastic channels is drastically reduced.
Keywords
This publication has 17 references indexed in Scilit:
- Unified theory of nuclear reactionsPublished by Elsevier ,2004
- Energy-dependent renormalization coefficients of folding-model description of 32S+40Ca elastic scatteringNuclear Physics A, 1984
- Inelastic excitation of giant resonances by 400-MeVO16Physical Review C, 1984
- Polarization and correlation contributions to the shell-model potential in 40Ca and 208PbNuclear Physics A, 1982
- Folding model potentials from realistic interactions for heavy-ion scatteringPhysics Reports, 1979
- Systematics of backward-angle elastic alpha scatteringNuclear Physics A, 1975
- Energy dependence of alpha-particle and heavy-ion optical potentialsPhysics Letters B, 1974
- Energy dependence of phenomenological optical-model potentialsNuclear Physics A, 1968
- A semi-phenomenological nuclear optical-model potentialThe European Physical Journal A, 1967
- A unified theory of nuclear reactions. IIAnnals of Physics, 1962