Low-lying valence and Rydberg states of NS, obtained by configuration-interaction studies

## Abstract The all‐electron full configuration interaction (FCI) vertical excitation energies for some low lying valence and Rydberg excited states of BeH are presented in this article. A basis set of valence atomic natural orbitals has been augmented with a series of Rydberg orbitals that have be

## Self -connstent field and conf@uratlon mteractlon ulculatlons were performed on the ground state and the ' (n,x\*), 3(n.a\*) and 3(n.n\*) evxed states ofacetyl fluoride CH3COF Theoretlal vertical excztatlon energes are 4 81 eV for 3(n.n\*). 5 27 eV for t (n,n\*) and 6 15 eV ior 3(~ a\*) The Ltt

## Abstract Complete active space self‐consistent field (CASSCF) and multireference CI with singles and doubles (MR‐CISD) calculations [including extensivity corrections, at MR‐CISD+Q and multireference averaged quadratic coupled cluster (MR‐AQCC) levels] have been performed to characterize the low

## Abstract The ground state and the excited states of benzene, pyrimidine, and pyrazine have been examined by using the symmetry adapted cluster‐configuration interaction (SAC‐CI) method. Detailed characterizations and the structures of the absorption peaks in the vacuum ultraviolet (VUV), low ene