Abstract
Shell-model wave functions for nuclei are used to calculate the one-body densities upon which are based the , , , , and moments of stable ground states with , Values of the moments are obtained by combining these densities with single-particle matrix elements calculated with both free space and renormalized expressions for the electromagnetic operators. These results extend previous calculations for the and moments. The theoretical values are analyzed in terms of deviations from the predictions of the pure-configuration shell model and compared with available experimental data. While several of these data are well described with the present theory, a few other experimental values differ significantly from the corresponding predicted values.
NUCLEAR STRUCTURE , , , , , , , , ; calculations for the , , , , and moments of ground states; complete shell-model wave functions; Chung-Wildenthal Hamiltonians.
- Received 23 January 1980
DOI:https://doi.org/10.1103/PhysRevC.22.774
©1980 American Physical Society