Alpha cluster structures and monopole excitations in 13C

Abstract

The structure of 1/2 states in 13C up to around the 3α+n threshold (Ex = 12.3~MeV) is investigated with a full four-body 3α+n orthogonality condition model (OCM) calculation, where the 3α OCM, the model space of which is the subspace of the 3α+n model, describes well the structure of the low-lying states of 12C including the 2+2, 0+3, and 0+4 states, which have been recently observed above the Hoyle state (0+2). A full spectrum up to the 1/2-5 (1/2+3) state is reproduced consistently with the lowest five 1/2- (three 1/2+) states of experimental spectrum. It is shown that the 1/2-2 and 1/2-3 states are characterized by the dominant cluster configurations of 9Be(3/2-,1/2-)+α, while the ground state 1/2-1 has a shell-model-like structure. The observed monopole transition strengths to the 1/2-2,3 states are consistently reproduced for the first time. These results indicate that the excited 1/2- states have cluster structures. They are compared to those by the previous work with the shell model. On the other hand, the 1/2+1 state is found to have a loosely bound neutron structure in which the extra neutron moves around 12C(g.s) core with 1S orbit, reflecting the fact that this state appears by 1.9 MeV just below the 12C(g.s)+n threshold, while the 1/2+2 and 1/2+3 states are characterized by 9Be+α structures. We found that the 1/2+5 state located above the 3α+n threshold is the Hoyle analogue state in 13C, the wave function of which is described by product states of constituent clusters, (0S)3α(S)n, with the probability of 52 %.