Cluster-shell competition and effect of adding hyperons
Abstract
The fundamental question is how the hyperon plays a role in the nuclear structure. It is of particular importance, especially in the light mass region, to verify the structure change when particle(s) is added to normal nuclei. The ground state of Be has been know to have a well-developed -- cluster structure, whereasnC has a mixed structure of three clusters and -coupling shell model, where clusters are partially broken. Adding particle(s) could induce the structure change. We compare the Be and C cases. Using the antisymmetrized quasi-cluster model (AQCM), the -cluster states and -coupling shell-model states of Be and C are prepared on the same footing, and we add particles. The cluster-shell competition in the ground state can be well described with this model. Using AQCM, we calculate Be, Be, Be, C, C, and C. By adding one or two particle(s), the ground state of C approaches the -coupling shell model side. On the other hand, in the Be case, although the particle(s) shrinks the -- distance, the breaking effect of the cluster structure is rather limited. The spin-orbit interaction is the driving force of breaking the clusters, and whether the glue-like effect of particle(s) attracts the cluster inside the range of this interaction is crucial. In C, the breaking of clusters in C is much enhanced by the addition of the particles than the case of free C. We also found that breaking clusters in the ground state of C affects the excited state with the pure cluster structure.
Keywords
Cite
@article{arxiv.2301.01878,
title = {Cluster-shell competition and effect of adding hyperons},
author = {Naoyuki Itagaki and Emiko Hiyama},
journal= {arXiv preprint arXiv:2301.01878},
year = {2023}
}