Enlarged deformation region in neutron-rich Zr isotopes by the second intruder orbit

Abstract

Nuclear deformations and density profiles of neutron-rich even-even Zr isotopes are investigated using the Skyrme-Hartree-Fock-Bogoliubov method. Large quadrupole and hexadecapole deformations are predicted along with large enhancement of the total reaction cross sections at the neutron number N=60-74. Strong nuclear deformation starting at N=60 is induced by the occupation of the intruder orbit with the asymptotic quantum number [nnz] = [550]1/2 originating from the spherical 0h11/2 orbit. The deformation region is further enlarged from N=72 to 74 owing to the occupation of the next intruder orbit with [530]1/2 originating from the spherical 1f7/2 orbit. This characteristic nuclear deformation is crucially reflected in the systematic behavior of the nuclear radii and the density profiles near the nuclear surface.