Gamow-Teller strength distributions of 18O and well-deformed nuclei 24,26Mg by deformed QRPA
Abstract
We investigate the Gamow-Teller (GT) transition strength distributions of strongly deformed nuclei, 24,26Mg, as well as of 18O. The calculations are performed within a deformed quasi-particle random phase approximation (DQRPA) which explicitly includes the deformation degree of freedom in the Skyrme-Hartree-Fock (SHF) and RPA calculations. The residual particle-particle (p-p) interaction as well as the particle-hole (p-h) interaction are extracted from Br\"uckner G-matrix calculations. The residual interaction dependence of the low-lying GT strength of these strongly deformed nuclei is examined by changing the strength of the residual p-p and p-h interactions. We have found that the low-lying GT peaks are quite similar in energy to those found in spherical N=Z and N=Z+2 nuclei near magic shells, but the configurations of 24,26Mg are largely mixed by the pairing correlations and the deformation. Our results are compared to the experimental GT () transition data by (t, 3He) and (3He, t) reactions, and found to reproduce the main features of GT strength distributions.
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