Deformed ground state of 32Mg and breaking of pseudo-spin symmetry

Abstract

Deformed ground state of 32Mg is investigated using the axially deformed relativistic Hartree-Fock-Bogoliubov (D-RHFB) model with the effective Lagrangian PKA1, which provides coincident description with the experimental measurements. It is illustrated that obvious breaking of the pseudo-spin symmetry (PSS) given by PKA1, being consistent with the experimental observation in nearby isotone 40Ca, is crucial for describing correctly the deformed ground state by producing unique shape evolution of neutron orbit 1/24+ in 32Mg. The PSS breaking is essentially determined by characteristic in-medium balance between nuclear attractions and repulsions that is manifested as unparalleled density dependent behaviors for coupling strengths gσ and gω in dominant σ-scalar and ω-vector channels.