The Core of 25F studied by the 25F(-1p)24O reaction

Abstract

The 25F(5/2+) (-1p) 24O reaction was studied at the NSCL using the S800 spectrometer. The experimental spectroscopic factor for the ground-state to ground-state transition indicates a substantial depletion of the proton d5/2 strength compared to shell-model expectations. Our result supports the findings reported by Tang et al., from their study of the (p,2p) reaction at RIBF. The overlap between the 25F and 24O ground-states is considerably less than anticipated if 24O acted as a robust and rigid doubly-magic core in 25F. We interpret the results within the framework of the Particle-Vibration Coupling (PVC) of a d5/2 proton coupled to a quadrupole phonon of an effective core. This approach provides a good description of the experimental data by requiring an effective 24O* core with a phonon energy of ω2= 3.2 MeV, and a B(E2) ~ 2.7 W.u., softer and more collective than a bare 24O. Both the Nilsson deformed mean field and the PVC models appear to capture the properties of the effective core of 25F, suggesting that the additional proton tends to polarize the free, doubly magic 24O in such a way that it becomes either slightly deformed or a quadrupole vibrator.