Proton and neutron correlations in 10B

Abstract

We investigate positive-parity states of 10B with the calculation of antisymmetrized molecular dynamics focusing on pn pair correlations. We discuss effects of the spin-orbit interaction on energy spectra and pn correlations of the Jπ T=1+10, =3+10, and 0+11 states. The 1+10 state has almost no energy gain of the spin-orbit interaction, whereas the 3+10 state gains the spin-orbit interaction energy largely to come down to the ground state. We interpret a part of the two-body spin-orbit interaction in the adopted effective interactions as a contribution of the genuine NNN force, and find it to be essential for the level ordering of the 3+10 and 1+10 states in 10B. We also apply a 2α+pn model to discuss effects of the spin-orbit interaction on T=0 and T=1 pn pairs around the 2α core. In the spin-aligned Jπ T=3+0 state, the spin-orbit interaction affects the (ST)=(10) pair attractively and keeps the pair close to the core, whereas, in the 1+0 state, it gives a minor effect to the (ST)=(10) pair. In the 0+1 state, the (ST)=(01) pair is somewhat dissociated by the spin-orbit interaction.