Shape coexistence in Ne isotopes and hyperon impurity effect on low-lying states
Abstract
Based on the beyond-mean-field Skyrme-Hartree-Fock model, we investigate the shape coexistence in Ne isotopes and the effect of hyperon on the energy level structure in the nuclei. The up-to-date Skyrme-type N interaction SLL4 and the NN interaction SGII are employed. Low-lying energy spectra of 20,22,24,26,28,30,32,34Ne, including the low-lying states with J≤ 6, are predicted, discussed in detail, and found in good agreement with experimental results. The electric quadrupole transition rate is also examined. The coexistences of a ground state rotational band and a vibrational band are revealed in 20,22,24Ne. Unlike the previously discovered shrinkage effect of s on the ground state nuclei, it is found that the s may alter the excitation mode of the second band by affecting the distribution of the collective wave function, thereby causing the vibrational band transitions to a vibrational band with equidistant energy levels.
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