Calculations of atomic spin-orbit matrix elements in the unitary group approach

The matrix elements of spin-dependent U (2n) generators are given explicitly. These matrix elements are expressed in terms of those of spin-independent U(n) and U (n + 1) generators, and can therefore be easily incorporated into existing unitary group approach based programs.

In the present article, we outline a simple scheme for generating configuration interaction matrix elements for spin᎐orbit interactions in molecules. The procedure leads to a close parallelism with spin-free permutation-group approaches. Unitary shift operators were successfully used on the orbital

Received 23 Februan 1979 A procedure is described for the utilization of abelian point group symmetry in the grdp1Cc.d unitary group approach KXJGA) to calcuhtions of correlated electronic wakefunctions\_ The procedure is based on d recursirely computed set of symmetry dependent countin g indices. a

A procedure for constructing H"d using the symbolic matrix method introduced by Liu and Yoshimine has been developed. Here flss is the dipolar spin-spin portion of the Breit-Pauli interaction and C' satisfies (Ho-Ep) C'=O, where A0 is the nonrelativistic electronic Born-Oppenheimer Hamiltonian. Thi

Group theoretic methods are presented for the transformations of integrals and the evaluation of matrix elements encountered in multiconfigurational self-consistent field (MCSCF) and configuration interaction (CI) calculations. The method has the advantages of needing only to deal with a symmetry un

This is the first in a series of three articles which aimed to derive the Ž . matrix elements of the U 2 n generators in a multishell spin-orbit basis. This is a basis appropriate to many-electron systems which have a natural partitioning of the orbital space and where also spin-dependent terms are