| Abstract: | The ab initio calculation methods have been used to calculate the spectral and electronic characteristics of difluorocarbene in the ground electronic state (1A1), the lowest-lying singlet (1B1) and triplet (3B1) states. The optimized equilibrium geometries, rotational constants, harmonic vibrational frequencies and energy gaps, electronic charges, dipole moments of these states have been computed with different basis sets. The calculated vibrational frequency of 3B1 state (v2=522 cm?1) and the energy separation (2.26 eV) between 3B1 and 1A1 states are in good agreement with the experimental results (519 cm?1, 2.46 eV respectively). According to the calculations the previous assignment of vibrational symmetries of 1B1 state was corrected, and some experimentally undetermined vibrational frequencies were predicted. |
