Universal Effective Charges in the sd and fp Shells

Abstract

The 247-keV state in 54Sc, populated in the β decay of 54Ca, is reported here as a nanosecond isomer with a half-life of 26.0(22) ns. The state is interpreted as the 1+ member of the π f7/2 f5/2 spin-coupled multiplet, which decays to the 3+,π f7/2 p1/2 ground state. The new half-life corresponds to a pure E2 transition with a strength of 1.93(16) W.u., providing the most precise, unambiguous B(E2) value in the neutron-rich fp region to date for a nucleus with valence protons above Z=20. Notably, it is roughly four times larger than the B(E2; 1/2- → 5/2-) value in 55Ca. The results, as compared to semi-empirical and ab initio shell-model calculations, indicate (1) a weak N=34 sub-shell gap relative to N = 32, (2) a large E2 enhancement in Sc as compared to Ca due to 1p-1h proton excitations across Z=28, and (3) empirical effective proton and neutron charges, eπ = 1.30(8)e and e = 0.452(7)e, respectively, that are in contrast to reports of eπ ≈ 1.1-1.15e and e ≈ 0.6-0.8e for fp-shell nuclei near N = Z. We demonstrate that these reports are erroneous and that, in fact, a universal set of effective charges can be used across the sd and fp shells.