Symmetry breaking in molecular calculations and the reliable prediction of equilibrium geometries. The formyloxyl radical as an example
- 1 October 1985
- journal article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 83 (7) , 3567-3576
- https://doi.org/10.1063/1.449162
Abstract
A systematic approach to symmetry breaking in molecular calculations, based on MCSCF and multireference CI (MRCI) wave functions, is presented. A series of MCSCF expansions is generated by successively incorporating resonance effects and size effects into the wave functions. The character of the potential surface obtained at each level is analyzed. As an example, the potential energy curves of the ground state (σ) and the first excited state (π) of the formyloxyl radical (HCO2) are characterized. The σ and π equilibrium structures are shown to be symmetric, with an adiabatic σ−π excitation energy of 9.2 kcal/mol. Unlike earlier theoretical studies, our MCSCF model produces a qualitatively correct potential surface. Therefore, we are able to extract reliable vibrational frequencies from the MRCI potential surface.Keywords
This publication has 21 references indexed in Scilit:
- Multireference CI gradients and MCSCF second derivativesThe Journal of Chemical Physics, 1984
- Symmetry breaking in polyatomic molecules: real and artifactualThe Journal of Physical Chemistry, 1983
- Practical method for .alpha.-alkenyl ketone synthesis based on a facile reductive rearrangement of alkynyl halohydrinsJournal of the American Chemical Society, 1983
- An orthogonal orbital MCSCF plus CI treatment of molecular symmetry breaking. I. The lowest 3B2 and 3A2 states of CO2The Journal of Chemical Physics, 1983
- MCSCF/CI investigation of the low-lying potential energy surfaces of the formyloxyl radical, HCO2.cntdot.Journal of the American Chemical Society, 1983
- The shape-driven graphical unitary group approach to the electron correlation problem. Application to the ethylene moleculeThe Journal of Chemical Physics, 1982
- Configuration interaction study of the three lowest electronic states in the formyl and acetyl radicalsJournal of the American Chemical Society, 1982
- The alchemy configuration interaction method. I. The symbolic matrix method for determining elements of matrix operatorsThe Journal of Chemical Physics, 1981
- Generalizations of the direct CI method based on the graphical unitary group approach. I. Single replacements from a complete CI root function of any spin, first order wave functionsThe Journal of Chemical Physics, 1979
- Doublet stability of ab initio SCF solutions for the allyl radicalMolecular Physics, 1978