Ab Initio Investigation of the Structure of the X2A′, A2A″ (12Π) Spectral System of HCO: Investigation of the Magnetic Hyperfine Effects

An ab initio investigation of the vibronic and the spin-orbit coupling effects in the \(X^{2} A^{\prime}, A^{2} A^{\prime \prime}\) \(\left(1^{2} \Pi\right)\) system of \(\mathrm{HCO}\) is presented. Vibronic energies, intensity distributions within the band progressions, and spin-orbit splittings f

The ab initio variational method for handling the Renner-Teller effect in tetraatomic molecules, developed in a previous work, is extended to enable the calculation of the vibronically averaged values for the hyperfine coupling constants. The approach is applied to compute the vibronic mean values f

The equilibrium bond length, harmonic frequency, first and second order anharmonicity constants, rotational and centrifugal distortion constants, as well as the rotation-vibrational and centrifugal coupling constants for the ground X 2~ + and first excited A21-I states of the SiN radical have been c

Large-scale CI calculations are carried out to obtain accurate bending potential energy curves for the 1 3 A 1 and 2 3 B 1 components of the A 3 u electronic state of NCN and the electric transition moment functions for the A 3 u -X 3 - g spectral system of this molecule. These data are combined to