Effects of realistic tensor force on nuclear quadrupole deformation around the shore of the island of inversion

Abstract

The M3Y-type semi-realistic interaction is applied to deformed nuclei for the first time. The constrained Hartree-Fock calculations assuming axial symmetry are implemented for the N=20 isotones 30Ne, 32Mg, 34Si and the N=28 isotones 40Mg, 42Si, 44S with the M3Y-P6 interaction. The results match the experimental data well. Effects of the realistic tensor force on the nuclear quadrupole deformation are investigated in relation to the loss of the N=20 and 28 magic numbers. The tensor force is confirmed to favor the deformation for the N=28 nuclei owing to the closure of the jj-shell (i.e., n0f7/2), while favoring the sphericity for the N=20 nuclei owing to the s-closure of N=20.