Odd-even staggering of neutron radii for neutron-rich Mg isotopes in continuum Skyrme-Hartree-Fock-Bogoliubov theory

Abstract

The self-consistent continuum Skyrme-Hartree-Fock-Bogoliubov theory formulated with Green's function technique in the coordinate space is developed to investigate odd-A nuclei by incorporating the blocking effect. In a calculation performed with the SLy4 parameter for the neutron-rich Mg isotopes with A=36-42 around the neutron shell closure N=28, the odd-even staggering in the neutron rms radius, i.e., a larger value in 39Mg than those in 38Mg and 40Mg, is found. The large neutron radius in 39Mg is due to the blocking effect on the pair correlation energy, for which the configuration occupying the weakly-bound quasiparticle state 2p3/2 becomes the ground state instead of the 1f7/2 configuration. Performing systematic calculations with different Skyrme parameters we find that the ground state configuration for the odd-A Mg isotopes, and hence the odd-even staggering of neutron radii, are sensitive to the details in the single-particle spectra, especially the gap between orbits 1f7/2 and 2p3/2.