Few-body structures in the mirror nuclei, 11O and 11Li

Abstract

We investigate the dripline mirror nuclei, 11Li and 11O, located on the neutron and proton dripline, respectively. We calculate the lowest four states, 3/2-, 1/2+, 3/2+ and 5/2+, built on double occupancy in the nuclear s1/2 and p1/2 valence single-particle states. We use the hyperspherical adiabatic expansion method to solve the three-body problem for a frozen nuclear core surrounded by two identical nucleons. The four analogue states in 11O are obtained with precisely the same interactions as used for the four states in 11Li, except for addition of the Coulomb interaction from the charge of the substituted valence protons. Surprisingly the four energies deviate from each other only by less than a few hundred keV. Any of them could then turn out to be the ground state, due to the uncertainty related to the angular momentum and parity dependence of the three-body potential. Still, our calculations marginally favor the 1/2+ state. The structures of these four states in 11O deviate substantially from the analogue states in the mirror, 11Li.