A multiconfiguration hartree-fock approach to atomic structure calculations

## An cltension of the time-dependent Hartree-Focii approximation to employ a multimnti~ur~ttin Ihrlree-Fock state as reference state has been devefoped-Preliminary multicontigxation time-dependent Hartree-Fock calculations wirh the round state of the Be atom using the configurations Is' and 7~' s

We present an outline of the parallel implementation of our pseudospectral electronic structure program, Jaguar, including the algorithm and timings for the Hartree᎐Fock and analytic gradient portions of the program. We also present the parallel algorithm and timings for our Lanczos eigenvector refi

A "direct" scheme to compute Fock matrices in the timedependent Hartree-Fock-Roothaan method is presented. Applicability of the method to compute frequency-dependent (hyper)polarizabilities of large organic molecules on low-end workstations is illustrated by considering three model systems, hexapent

An ab initio embedded-cluster approach to electronic structure calculations on crystalline solids, within the framework of the linear combination of atomic orbitals method, is presented. The solid is modelled as a central cluster embedded in the field created by its environment (rest of the infinite