Pairing core swelling effect in Pb isotopes at N>126

Abstract

We revisit a sudden increase of the isotope shift of the charge radius of Pb isotope at N>126 based on a Skyrme Hartree-Fock-Bogoliubov theory. New parametrizations of the pairing interaction optimized for selected four Skyrme interactions greatly improve a description of this phenomenon. The density-dependent spin-orbit interaction is also investigated and further increases the charge radius. The pairing correlations significantly change the properties of the neutron orbits near the Fermi level and play a vital role in pulling out the well-bound protons in the Pb isotopes at N>126. Regarding 208Pb as a "core" nucleus, a novel pairing core swelling effect is proposed: The pairing interaction reduces the radius of "valence" neutron orbits by the shrinkage of diffused 1g9/2 orbit and the mixing of sharp 0i11/2 orbit. Simultaneously, the core nucleus swells, leading to the sudden enhancement of the charge radius at N > 126. This characteristic behavior appears in the density profile near the nuclear surface and its measurement is highly desirable.