AB initio calculation of the structure of the CO3 molecule

In a previous paper (W. P. Kraemer, P. Jensen, and P. R. Bunker, Can. J. Phys. 72, 871-878, 1994) we reported the results of an ab initio calculation of the vibronic (i.e., \(N=0\) ) energy levels of the \(\mathrm{CH}_{2}^{+}\)molecular ion in both the \(\dot{X}^{2} A_{1}\) and \(\tilde{A}^{2} B_{1}

The six-dimensional potential energy surface of the ground state X 1 + of C 3 O has been generated by the CCSD(T) approach. The spectroscopic constants of this molecule are calculated and the vibrational spectrum is derived. The fundamentals are accurate to within 10 cm -1 compared to the available

Results from pseudopotential calculations on S-hydroxyindole, tryptamine, 5-hydroxytryptamine, 6-hydroxytryptamine and the imidazolium cation are compared to full ab-initio calculations. The localization of all molecular orbitals is found to be identical with the two methods. Orbital energies from t

An ab initio self-consistent-field (scF) algorithm taking into account all the features of the one-dimensional translational periodicity and the helical symmetry is presented. This algorithm includes the long-range correction to the Coulomb potential and is designed to calculate the band structure o