Charge radius isotope shift across the N=126 shell gap

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Abstract

We revisit the problem of the kink in the charge radius shift of neutron-rich even isotopes near the N=126 shell closure. We show that the ability of a Skyrme force to reproduce the isotope shift is determined by the occupation of the neutron 1i11/2 orbital beyond N=126 and the corresponding change it causes to deeply-bound protons orbitals with a principal quantum number of 1. Given the observed position of the single-particle energies, one must either ensure occupation is allowed through correlations, or not demand that the single-particle energies agree with experimental values at the mean-field level. © 2013 American Physical Society.

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Goddard, P. M., Stevenson, P. D., & Rios, A. (2013). Charge radius isotope shift across the N=126 shell gap. Physical Review Letters, 110(3). https://doi.org/10.1103/PhysRevLett.110.032503

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