An analytic fit to the X 2A′ potential surface of CH+2

The mechanism of electronic quenching of the A 2A state of CH by ground-state H, is qualitatively investigated by calculating the appropriate potential energy surfaces. It is shown that the appearance of an early potential barrier of 0.15 eV and of a late barrier of 0.6 eV on the potential energy su

## Abstract In this work, we have calculated the thermodynamic parameters of the polymerization of some derivatives of the species CH~2~X (X = CH~2~, NH, O), using ab initio methods of quantum chemistry and the usual formalism of statistical thermodynamics. It is shown that the Gibbs functions Δ__

The two lowest electronic states of NaO, have been studied using ab initio methods, including RHF SCF, CISD, Davidsoncorrected CISD, UHF SCF, UMPZ-UMP4, CASSCF, and CISD based on CASSCF natural orbitals, with basis sets ranging in qualityfmmNa( lls7p/7s5p), 0(9sSpld/5s3pld) toNa(l3slDp2dlf/7s6p2dlf)

Complete active space SCF/intemally contracted configuration interaction calculations using large atomic natural orbital basis sets are reported for CHS + Oz. Two potential energy surfaces are found to be important in the CH, + O2 reaction. In C. symmetry, the lower zA" surface correlates with CHs +

The X(1)(2)Pi(3/2) and X(2)(2)Pi(1/2) potential energy curves of the FO free radical have been determined from a fit to the available high-resolution spectroscopic data. The data set spans the vibrational states v = 0-7 and includes X(2)(2)Pi(1/2) <-- X(1)(2)Pi(3/2) fine-structure transitions. The d