Lund University Publications

Deformed halo of ₉²⁹F₂₀

• Mark

Abstract

Using a simple model based on the knowledge of spherical and deformed Woods-Saxon potentials, it is shown that the recent observation of halo phenomena in ²⁹F can be interpreted as evidence for the prolate deformation of the ground state of ²⁹F. The prolate deformation is the result of the shell structure, which is unique in one-neutron resonant levels, in particular near degeneracy of the neutron 1f_7/2 and 2p_3/2 resonant levels, together with the strong preference of prolate shape by the proton number Z=9. On the other hand, in oxygen isotopes spherical shape is so much favored by the proton number Z=8 that the presence of possible neutron shell-structure may not make the system deformed.... (More)

Using a simple model based on the knowledge of spherical and deformed Woods-Saxon potentials, it is shown that the recent observation of halo phenomena in ²⁹F can be interpreted as evidence for the prolate deformation of the ground state of ²⁹F. The prolate deformation is the result of the shell structure, which is unique in one-neutron resonant levels, in particular near degeneracy of the neutron 1f_7/2 and 2p_3/2 resonant levels, together with the strong preference of prolate shape by the proton number Z=9. On the other hand, in oxygen isotopes spherical shape is so much favored by the proton number Z=8 that the presence of possible neutron shell-structure may not make the system deformed. Thus, the strong preference of particular shape by the proton numbers 8 and 9, respectively, together with a considerable amount of the energy difference between the neutron 1d_3/2 and 2s_1/2 orbits in oxygen isotopes seems to play an important role in the phenomena of oxygen neutron drip line anomaly, as was suggested by H. Sakurai et al. in 1999.

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