Collective Properties of Low-lying Octupole Excitations in 20882Pb126, 6020Ca40 and 288O20

Abstract

The octupole strengths of β-stable nucleus 20882Pb126, a neutron skin nucleus 6020Ca40 and a neutron drip line nucleus 288O20 are studied by using the self-consistent Hartree-Fock calculation plus the random phase approximation (RPA) with Skyrme interaction. The collective properties of low-lying excitations are analyzed by using particle-vibration coupling. The results show that the lowest isoscalar states above threshold in 6020Ca40 and 288O20 are the superpositions of collective excitations and unperturbed transitions from bound state to nonresonance states. For these three nuclei, both the low-lying isoscalar states and giant isoscalar resonance carry isovector strength. The ratio B(IV)/B(IS) is checked. It is found that, for 20882Pb126, the ratios are equal to (N-ZA)2 in good accuracy, while for 6020Ca40 and 288O20, the ratios are much larger than (N-ZA)2. This results from the excess neutrons with small binding energies in 6020Ca40 and 288O20.

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