Hyperfine anomalies in Fr: boundaries of the spherical single particle model

Abstract

We have measured the hyperfine splitting of the 7P1/2 state at the 100 ppm level in Fr isotopes (206g,206m, 207, 209, 213, 221Fr) near the closed neutron shell (N = 126 in 213Fr). The measurements in five isotopes and a nuclear isomeric state of francium, combined with previous determinations of the 7S1/2 splittings, reveal the spatial distribution of the nuclear magnetization, i.e. the Bohr-Weisskopf effect. We compare our results with a simple shell model consisting of unpaired single valence nucleons orbiting a spherical nucleus, and find good agreement over a range of neutron-deficient isotopes (207-213Fr). Also, we find near-constant proton anomalies for several even- N isotopes. This identifies a set of Fr isotopes whose nuclear structure can be understood well enough for the extraction of weak interaction parameters from parity non-conservation studies.