Impact of collective vibrations on quasiparticle states of open-shell odd-mass nuclei and possible interference with the tensor force

Abstract

The energy splittings between the proton 1h11/2 and 1g7/2 states in the Sb (Z=51) isotopes and the neutron 1i13/2 and 1h9/2 states in the N=83 isotones are analyzed within relativistic quasiparticle-vibration coupling (QVC) model. Although a common viewpoint is that an effective tensor interaction is needed to reproduce these splittings, we show, for the first time, that quasiparticle-vibration coupling also improves their description considerably. The remaining differences between the experiment and the QVC calculations point to a complex scenario in which both tensor interaction and quasiparticle-vibration coupling are needed to reproduce accurately the observed energy splittings. This scenario, however, requires a considerably weaker tensor interaction as compared with the previous estimates.