Ground-state properties of even-even N = Z nuclei within the Hartree-Fock-BCS and higher Tamm–Dancoff approaches
Language
en
Article de revue
This item was published in
Physical Review C. 2007, vol. 76, p. 014304
American Physical Society
English Abstract
We calculate the ground-state properties of well deformed, even-even N = Z nuclei in the region between 56Ni and 100Sn within two different approaches, focusing on the binding energy and deformation and pairing properties. ...Read more >
We calculate the ground-state properties of well deformed, even-even N = Z nuclei in the region between 56Ni and 100Sn within two different approaches, focusing on the binding energy and deformation and pairing properties. First, we employ the Hartree-Fock-BCS (HFBCS) approximation with the Skyrme effective nucleon-nucleon interaction and discuss how the results depend on the parametrization of the interaction and on the pairing force parameters adjusted in various schemes to reproduce the experimental odd-even mass differences. Then, within the Higher Tamm-Dancoff Approximation (HTDA), which explicitly conserves the particle number, we calculate the same properties starting from the HFBCS solutions. The HTDA treatment of the ground-state correlations is converged within a n-particle-n-hole expansion using up to n = 4 particle-hole excitations of the pair type (in the sense of Cooper pairs). We compare the ground-state properties calculated in these two descriptions of pairing correlations and deduce the importance of the particle-number conservation in weak pairing regimes. Finally, we extend the HTDA calculations so as to include the proton-neutron residual interaction and investigate the role of proton-neutron pairing on the above ground-state properties.Read less <
Origin
Hal imported