Gamow-Teller transitions and proton-neutron pair correlation in N=Z= odd p-shell nuclei

Abstract

We have studied the Gamow-Teller (GT) transitions from N=Z+2 neighbors to N=Z= odd nuclei in p-shell region by using isospin-projected and βγ-constraint antisymmetrized molecular dynamics combined with generator coordinate method. The calculated GT transition strengths from 0+1 states to 1+0 states such as 6 He(01+1)→6 Li(11+0), 10 Be(01+1)→10 B(11+0), and 14 C(01+1)→14 N(12+0) exhaust more than 50\% of the sum rule. These N=Z+2 initial states and N=Z= odd final states are found to dominantly have S=0,T=1 nn pairs and S=1,T=0 pn pairs, respectively. Based on two-nucleon (NN) pair picture, we can understand the concentration of the GT strengths as the spin-isospin-flip transition nn(S=0,T=1)→ pn(S=1,T=0) in LS-coupling scheme. The GT transition can be a good probe to identify the spin-isospin partner states with nn pairs and pn pairs of N=Z+2 and N=Z= odd nuclei, respectively.