English

$^8$He and $^9$Li cluster structures in light nuclei

Nuclear Theory 2020-09-02 v1

Abstract

The possibility of the 8^8He and 9^{9}Li clusters in atomic nuclei is discussed. Until now most of the clusters in the conventional models have been limited to the closures of the three-dimensional harmonic oscillators, such as 4^4He, 16^{16}O, and 40^{40}Ca. In the neutron-rich nuclei, however, the neutron to proton ratio is not unity, and it is worthwhile to think about more neutron-rich objects with N>ZN>Z as the building blocks of cluster structures. Here the nuclei with the neutron number six, which is the subclosure of the p3/2p_{3/2} subshell of the jjjj-coupling shell model, are assumed to be clusters, and thus we study the 8^8He and 9^9Li cluster structures in 16^{16}Be (8^8He+8^8He), 17^{17}B (8^8He+9^9Li), 18^{18}C (9^9Li+9^9Li), and 24^{24}C (8^8He+8^8He+8^8He). Recent progress of the antisymmetrized quasi cluster model (AQCM) enables us to utilize jjjj-coupling shell model wave functions as the clusters rather easily. It is shown that the 8^8He+9^9Li and 9^9Li+9^9Li cluster configurations cover the lowest shell-model states of 17^{17}B and 18^{18}C, respectively. To predict the cluster states with large relative distances, we increase the expectation value of the principal quantum numbers by adding the nodes to the lowest states under the condition that the total angular momentum is unchanged (equal to Jπ=0J^\pi =0). As a result, developed cluster states are obtained around the corresponding threshold energies. The rotational band structure of 24^{24}C, which reflect the symmetry of equilateral triangular configuration (D3hD_{3h} symmetry) of three 8^8He clusters, also appears around the threshold energy.

Keywords

Cite

@article{arxiv.2004.14647,
  title  = {$^8$He and $^9$Li cluster structures in light nuclei},
  author = {Naoyuki Itagaki and Tokuro Fukui and Junki Tanaka and Yuma Kikuchi},
  journal= {arXiv preprint arXiv:2004.14647},
  year   = {2020}
}
R2 v1 2026-06-23T15:12:22.963Z