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Abstract
Detailed formulations are developed for the theoretical calculation of molecular-orbital (MO) wave functions and electronic excitation energies for transition-metal clusters. The procedures are based upon the spin- and symmetry-restricted Hartree-Fock-Roothaan self-consistent-field (SCF) equations for open-shell systems. All diagonal electrostatic matrix elements have been derived to permit determining MO's for all states of all electronic configurations arising from the ${d}^{n}$ states of the free metal ion. In addition, configuration-interaction matrix elements among all states occurring in the ${d}^{2}$ and ${d}^{3}$ (${d}^{8}$ and ${d}^{7}$) systems are also presented. The frozen-core approximations and some aspects of achieving converged SCF MO's are briefly discussed.
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