Spin-orbit splitting in low-j neutron orbits and proton densities in the nuclear interior

Abstract

On the basis of relativistic mean field calculations, we predict that the spin-orbit splitting of p3/2 and p1/2 neutron orbits depends sensitively on the magnitude of the proton density near the center of the nucleus, and in particular on the occupation of s1/2 proton orbits. We focus on two exotic nuclei, 46Ar and 206Hg, in which the presence of a pair of s1/2 proton holes is predicted to cause the splitting between the p3/2 and p1/2 neutron orbits near the Fermi surface to be much smaller than in the nearby doubly-magic nuclei 48Ca and 208Pb. We note that these two exotic nuclei depart from the long-standing paradigm of a central potential proportional to the ground state baryon density and a spin-orbit potential proportional to the derivative of the central potential.

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