g9/2 neutron strength in the N=29 isotones and the 52Cr(d,p)53Cr reaction
Abstract
We performed a measurement of the 52Cr(d,p)53Cr reaction at 16 MeV using the Florida State University Super-Enge Split-Pole Spectrograph (SE-SPS) and observed 26 states. While all of the states observed here had been seen in previous (d,p) experiments, we changed five L assignments from those reported previously and determined L values for nine states that had not had such assignments made previously. The g9/2 neutron strength observed in 53Cr in the present work and in the N=29 isotones 49Ca, 51Ti, and 55Fe via (d,p) reactions is much smaller than the sum rule for this strength. Most of the observed L=4 strength in these nuclei is located in states near 4 MeV excitation energy. The remaining g9/2 strength may be located in the continuum or may be fragmented among many bound states. A covariant density functional theory calculation provides support for the hypothesis that the g9/2 neutron orbit is unbound in 53Cr. The (α,3He) reaction may provide a more sensitive probe for the missing g9/2 neutron strength. In addition, particle-γ coincidence experiments may help resolve some remaining questions in this nucleus.
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