$Î(1232)$ Isobar Excitations and the Ground State of Nuclei
arXiv:nucl-th/0109046 · doi:10.1103/PhysRevC.65.034316
Abstract
The influence of $Î$ isobar components on the ground state properties of nuclear systems is investigated for nuclear matter as well as finite nuclei. Many-body wave functions, including isobar configurations, and binding energies are evaluated employing the framework of the coupled-cluster theory. It is demonstrated that the effect of isobar configurations depends in a rather sensitive way on the model used for the baryon-baryon interaction. As examples for realistic baryon-baryon interactions with explicit inclusion of isobar channels we use the local ($V28$) and non-local meson exchange potentials (Bonn$_{2000}$) but also a model recently developed by the Salamanca group, which is based on a quark picture. The differences obtained for the nuclear observables are related to the treatment of the interaction, the $Ï$-exchange contributions in particular, at high momentum transfers.
12 pages, including 5 figures