Shell-model studies of mass-45 nuclei and calcium isotopes A=46-50: energy spectra and electromagnetic moments

Abstract

Shell-model calculations have been performed for the mass-45 nuclides ⁴⁵Ti, ⁴⁵Sc and ⁴⁵Ca and the calcium isotopes ^46-50Ca. The one-body part of the Hamiltonian was extracted from the experimental spectra of ⁴¹Ca and ⁴¹Sc whilst the two-body part used was a modification of the interaction constructed by T.T.S. Kuo and G.C. Brown (1968) from the Hamada-Johnston nucleon-nucleon potential. All Pauli-allowed pf-shell configurations were included in the model space. Magnetic dipole and electric quadrupole moments were calculated from the shell-model wavefunctions using effective operators. Comparison with experimental data shows that the Kuo-Brown interaction is moderately successful for ⁴⁵Sc and ⁴⁵Ti, but that the quality of the fit to energy spectra deteriorates as the number of active neutrons increases, especially for those excited states for which p_3/2 configurations are important. A modification to the Kuo-Brown interaction is suggested which significantly improves the agreement achieved.