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Neutron-rich P, Cl, and K isotopes, particularly those with neutron numbers around N=28, have attracted extensive experimental and theoretical interest. We utilize the ab initio valence-space in-medium similarity renormalization group approach, based on chiral nucleon-nucleon and three-nucleon forces, to investigate the exotic properties of these isotopes. Systematic calculations of the low-lying spectra are performed. A key finding is the level inversion between 3/2₁^+ and 1/2₁^+ states in odd-A isotopes, attributed to the inversion of 0d₃/₂ and 1s₁/₂ single-particle states. Ab initio calculations, which incorporate the three-nucleon forces, correlate closely with existing experimental data. Further calculations of effective proton single-particle energies provide deeper insights into the shell evolution for Z=14 and 16 sub-shells. Our results indicate that the three-body force plays important roles in the shell evolution for Z=14 and 16 sub-shells with neutron numbers ranging from 20 to 28. Additionally, systematic ab initio calculations are conducted for the low-lying spectra of odd-odd nuclei. The results align with experimental data and provide new insights for future research into these isotopes, up to and beyond the drip line.
Xie et al. (Sun,) studied this question.