54Fe(d,p)55Fe and the evolution of single neutron energies in the N=29 isotones

Abstract

A measurement of the 54Fe(d,p)55Fe reaction at 16 MeV was performed using the Florida State University Super-Enge Split-Pole Spectrograph to determine single-neutron energies for the 2p3/2, 2p1/2, 1f5/2, 1g9/2 and 2d5/2 orbits. Two states were observed that had not been observed in previous (d, p) measurements. In addition, we made angular momentum transfer, L, assignments to four states and changed L assignments from previous (d, p) measurements for nine more states. The spin-orbit splitting between the 2p3/2 and 2p1/2 orbits is similar to that in the other N=29 isotones and not close to zero as a previous measurement suggested. While the 1f5/2 single neutron energy is significantly lower in 55Fe than in 51Ti, as predicted by a covariant density functional theory calculation, the single-neutron energy for this orbit in 55Fe is more than 1 MeV higher than the calculation suggests, although it is only 400 keV above the 2p1/2 orbit. The summed spectroscopic strength we observed for the 1g9/2 orbit up to the single-neutron separation energy of 9.3 MeV is only 0.3. This is surprising because the 1g9/2 orbit is predicted by Togashi et al. to be located only 5.5 MeV above the 2p3/2 orbit.

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