Showing papers by "T.T.S. Kuo published in 1986"
TL;DR: In this article, the particle-particle (pp) and particle-hole (ph) ring diagrams in the linked diagram expansion of the ground-state energy shift Δ E 0 for many-body systems are derived, given as an integral involving G pp ( ω, λ ) ν, where G pp is the pp Green function, υ the interaction hamiltonian (taken to be two-body) and λ a strength parameter to be integrated over from 0 to 1.
18 citations
TL;DR: It is found that the addition of such a potential whose strength is approx.10% of the central component of the Paris potential is adequate in making the nuclear matter binding energy and saturation density in simultaneous agreement with the empirical values.
Abstract: Using a model-space Brueckner-Hartree-Fock approach, we have carried out nuclear matter calculations using the Paris nucleon-nucleon potential. The self-consistent single particle spectrum from this approach is continuous for momentum up to k/sub M/, where k/sub M/roughly-equal2k/sub F/ is the momentum space boundary of our chosen model space. The nuclear matter average binding energy and saturation Fermi momentum given by our calculations are approx.15.6 MeV and approx.1.56 fm , respectively. When using the conventional Brueckner-Hartree-Fock approach with a spectrum which has a gap at k/sub F/, the corresponding results are approx.11.5 MeV and approx.1.50 fm . The gain of approximately 4 MeV in binding energy between the two calculations comes mainly from the TS1 and S0 partial wave channels. We have investigated the effect of adding an empirical density dependent central potential to the Paris potential. It is found that the addition of such a potential whose strength is approx.10% of the central component of the Paris potential is adequate in making the nuclear matter binding energy and saturation density in simultaneous agreement with the empirical values.
14 citations
TL;DR: In this paper, a general method for determining the normalization of the RPA type of wave functions from the respective RPA vertex functions is proposed, and the implications of the present theory on quenchings of nuclear electromagnetic transitions are discussed.
13 citations