Hoyle-analog state in 13N

Abstract

We investigate the cluster structure of 13N using a microscopic α+α+α+p four-body cluster model. The calculated spectra agree well with the observed spectra in the low-lying states. We calculate the reduced width amplitudes and spectroscopic factors to investigate the Hoyle-analog state in 13N. Our calculations show that the 3/23- state at Ex=10.8 MeV is primarily constituted by 12C(0+2)+p and 9B(3/2-)+α components. This finding is generally consistent with the newly observed 3/2- state at Ex=11.3 MeV via the 3α + p decay channel. Moreover, considering the calculated root-mean-square radius and isoscalar monopole transition strengths, the 3/23- state emerges as a candidate for the Hoyle-analog state with the 12C(0+2)+p cluster structure.