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

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arxiv 1412.1558 v2 pith:5XUTR7UR submitted 2014-12-04 nucl-th

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

classification nucl-th
keywords shiftschannelinteractionisotopenucleidensity-dependenceeffectsfunctions
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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 $\ell s$ splitting of the single-nucleon orbits, the density-dependence in the LS channel tends to shrink the wave functions of the $j=\ell+1/2$ orbits while makes the $j=\ell-1/2$ 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 $0i_{11/2}$ 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 $n1g_{9/2}$ and $n0i_{11/2}$ levels. We exemplify it by the semi-realistic M3Y-P6 interaction.

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