The Core of 25F in the Rotational Model

Abstract

In a recent experiment, carried out at RIBF/RIKEN, the 25F(p,2p)24O reaction was studied at 270 MeV/A in inverse kinematics. Derived spectroscopic factors suggest that the effective core of 25F significantly differs from a free 24O nucleus. We interpret these results within the Particle-Rotor Model and show that the experimental level scheme of 25F can be understood in the rotation-aligned coupling scheme, with its 5/2+1 ground state as the band-head of a decoupled band. The excitation energies of the observed 1/21+ and 9/21+ states correlate strongly with the rotational energy of the effective core, seen by the odd proton, and allow us to estimate its 2+ energy at ≈ 3.2 MeV and a moderate quadrupole deformation, ε2 ≈ 0.15. The measured fragmentation of the π d5/2 single-particle strength is discussed and some further experiments suggested.