Residual Tensor Force Effects on the Gamow-Teller states in Magic Nuclei, 48Ca, 90Zr, 132Sn, and 208Pb
arxiv(2024)
Abstract
We investigate the tensor force (TF) effect on the Gamow-Teller (GT)
transitions in four magic nuclei, 48Ca, 90Zr, 132Sn and 208Pb. The TF is
considered by using the Bruckner G-matrix theory with the CD Bonn potential,
and taken into account as the residual interaction of charge-exchange
quasiparticle random phase approximation (QRPA). We found that
particle-particle (p-p) tensor interaction does not affect the GT transitions
because of the closed shell nature in the nuclei, but repulsive p-h residual
interaction for the p-h configuration of spin-orbit partners dominates the
high-lying giant GT states for all of the nuclei. It is also shown that
appreciable GT strengths are shifted to lower energy region by the attractive
p-h TF for the same jπ = jν configuration, and produce the low-lying GT
peak about 2.5 MeV in 48Ca. Simultaneously, in 90Zr and 132Sn, the low-energy
strength appears as a lower energy shoulder near the main GT peak. On the other
hand, the shift of the low-lying GT state is not seen clearly for 208Pb because
of the strong spin-orbit splitting of high j orbits, which dominates the GT
strength.
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