Effects of three-nucleon spin-orbit interaction on isotope shifts of Pb nuclei

Abstract

We investigate effects of the 3N interaction, which effectively adds a density-dependent term to the LS channel, on the isotopes shifts of the Pb nuclei. With the strength so as to keep the s splitting of the single-nucleon orbits, the density-dependence in the LS channel tends to shrink the wave functions of the j=+1/2 orbits while makes the j=-1/2 functions distribute more broadly. Thereby the kink in the isotope shifts of the Pb nuclei at N=126 becomes stronger, owing to the attraction from neutrons occupying 0i11/2 in N>126. The density-dependence in the LS channel enables us to reproduce the data of the isotope shifts by the Hartree-Fock-Bogolyubov calculations in a long chain of neutron numbers, even without degeneracy between the n1g9/2 and n0i11/2 levels. We exemplify it by the semi-realistic M3Y-P6 interaction.