Off-Energy-Shell Effects in the Brueckner Theory of Nuclear Matter
- 25 October 1965
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review B
- Vol. 140 (2B), B287-B295
- https://doi.org/10.1103/physrev.140.b287
Abstract
The binding energy of nuclear matter at the equilibirum density determined by Brueckner and Gammel is calculated with the Brueckner-Gammel-Thaler nuclear forces. The Brueckner theory is applied. It is found that a solution exists for the coupled equations which determine the off-energy-shell elements of the matrix of the Brueckner theory. This exact treatment of the off-energy-shell effects increases drastically the single-particle potential at high momenta. The calculated binding energy per nucleon, 7.5 MeV, is much smaller than the value of 15.2 MeV obtained by Brueckner and Gammel. This result is discussed. Two methods of treating the repulsive core—hard core and "hollow hard core"—are compared.
Keywords
This publication has 14 references indexed in Scilit:
- Three-Body Correlations in Nuclear MatterPhysical Review B, 1965
- Nuclear matter binding energy and the two-nucleon potentialNuclear Physics, 1964
- Calculation of the Binding Energy of Nuclear Matter by the Method of Reference SpectrumPhysical Review B, 1963
- Reference Spectrum Method for Nuclear MatterPhysical Review B, 1963
- Nuclear Matter Calculations and Phenomenological PotentialsPhysical Review B, 1962
- A potential model representation of two-nucleon data below 315 MeVNuclear Physics, 1962
- Note on a Nucleon-Nucleon PotentialPhysical Review B, 1962
- The three-nucleon cluster term energy in nuclear matterAnnals of Physics, 1961
- Single Particle Energies in the Theory of Nuclear MatterPhysical Review B, 1960
- Properties of Nuclear MatterPhysical Review B, 1958