Relativistic multireference many-body perturbation theory calculations on Au64+- Au69+ions

Relativistic diagrammatic perturbation theory calculations have been performed on the ground states of the beryllium atom and the isoelectronic species Ne6+ and A?'+. Reference states of single-configuration Dime-Fock wavefunctions were computed by expansion in basis sets of Gaussian functions. Seco

A method of generating configuration functions without first solving the configuration interaction problem is proposed to form a compact multireference space. A new space of molecular orbitals is built on the basis of the Hartree-Fock equations with orthogonality constraints. The zeroth-order Hamilt

Relativistic correlation energies have been computed for the closed-shell ground states of Zn and Cd and their singly ionized open-shell ions by means of a recently developed relativistic many-body perturbation theory for open-shell multiplet states. All electrons were included in the correlation ca