Single Particle Strengths and Mirror States in 15N-15O below 12.0 MeV

Abstract

New 14N(d,p) angular distribution data were taken at a deuteron bombarding energy of 16 MeV to locate all narrow single particle neutron states up to 15 MeV in excitation. A new shell model calculation is able to reproduce all levels in 15N up to 11.5 MeV and is used to characterize a narrow single particle level at 11.236 MeV and to provide a map of the single particle strengths. The known levels in 15N are then used to determine their mirrors in the lesser known nucleus 15O. The 2s1/2 and 1d5/2 single particle centroid energies are determined for the 15N-15O mirror pair as: 15N (2s1/2) = 8.08 MeV, 15O (2s1/2) = 7.43 MeV, 15N (1d5/2) = 7.97 MeV, and 15O (1d5/2) = 7.47 MeV. These results confirm the degeneracy of these orbits and that the 15N-15O nuclei are where the transition between the 2s1/2 lying below the 1d5/2 to lying above it, takes place. The 1d3/2 single particle strength is estimated to be centered around 13 MeV in these nuclei.