SCF calculations of the electronic structures of the sulfate and perchlorate ions by the scattered-wave model

It is shown that essential Features of the band structure of a. covalent crystal, as silicon, emerge in the level scheme of a cluster calculation utilizing the SCF Xa scattered wave method. 'The model cluster was terminated by a layer of saturating atoms to take care or the dangling bonds and the po

It Ius recently been established that physiul realism of the resu!ts can be irnprov-d within the framework of the self-consistent statist&l exctiange multiple scattering wave method if the atomic spheres are allowed to overkp. Here we report that by semi-empirically adjust% the overlap of the atomic

## Abstract An __ab initio__ SCF calculation of 42 points of the energy hypersurface of the fluoronium ion is presented using a contracted F(5__s__/3p), H(2s) gaussian basis set. In its equilibrium structure a bond length of 1.812 a.u. and a HFH bond angle of 127.2° are predicted. The calculated vi

## Photoionization, X-ray emission and UV excitation energies are calculated for SiOa by the SCF Xcc method and the transition-state procedure. In all cases agreement between calculation and experiment is good. The SiOz-cluster is found to be adequntc for describing localized excitations in quartz

All-valence-electron SCF MO CI calculations of the spectra of dianion and free base porphin were performed. Comparisons are made with other SCF MO CI calculations and with experiment. The results obtained are seen to be in reasonable agreement with experiment. Characteristics of the calculated ba