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Deformation of Ne isotopes in the island-of-inversion region

The deformation of Ne isotopes in the island-of-inversion region is determined by the double-folding model with the Melbourne $g$-matrix and the density calculated by the antisymmetrized molecular dynamics (AMD). The double-folding model reproduces, with no adjustable parameter, the measured reaction cross sections for the scattering of $^{28-32}$Ne from $^{12}$C at 240MeV/nucleon. The quadrupole deformation thus determined is around 0.4 in the island-of-inversion region and $^{31}$Ne is a halo nuclei with large deformation. We propose the Woods-Saxon model with a suitably chosen parameterization set and the deformation given by the AMD calculation as a convenient way of simulating the density calculated directly by the AMD. The deformed Woods-Saxon model provides the density with the proper asymptotic form. The pairing effect is investigated, and the importance of the angular momentum projection for obtaining the large deformation in the island-of-inversion region is pointed out.

preprint2012arXivOpen access
Takenori SumiKosho MinomoShingo TagamiMasaaki KimuraTakuma MatsumotoKazuyuki OgataYoshifumi R. ShimizuMasanobu Yahiro
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Takenori SumiKosho MinomoShingo TagamiMasaaki KimuraTakuma MatsumotoKazuyuki OgataYoshifumi R. ShimizuMasanobu Yahiro

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