Abstract

We report on shell-model calculations for nuclei with valence nucleons outside 48Ca wherein a fully microscopic approach is adopted. Namely, the single-particle energies and the matrix elements of the two-body interaction are derived theoretically starting from the high-precision CD-Bonn nucleon-nucleon potential, renormalized by way of the Vlow−k approach. This has been done within the framework of the time-dependent degenerate linked-diagram perturbation theory. Our results compare satisfactorily with a large amount of experimental data.

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