Parity mixing of pair at nuclear surface due to spin-orbit potential in 18F

Abstract

We investigate the structure of 18F with the microscopic wave function based on the three-body 16O+p+n model. In the calculation of the generator coordinate method (GCM) of the three-body model, T=0 energy spectra of Jπ=1+, 3+, and 5+ states and T=1 spectra of Jπ=0+, 2+ states in 18F are described reasonably. Based on the dinucleon picture, the effect of the spin-orbit force on the T=0 and T=1 pn pairs around the 16O core is discussed. The T=1 pair in the Jπ=0+ state gains the spin-orbit potential energy involving the odd-parity mixing in the pair. The spin-orbit potential energy gain with the parity mixing is not so efficient for the T=0 pair in the Jπ=1+ state. The parity mixing in the pair is regarded as the internal symmetry breaking of the pair in the spin-orbit potential at the nuclear surface.