Properties of the low-lying electronic states of phenanthrene: Exact PPP results

Dispersed fluorescence studies on the 6 -X 6 and 6 -X 6 systems of the FeF radical have resulted in the observation of vibrational progressions for transitions to the X 6 state as well as at least two previously unobserved electronic states about 5000 cm -1 above the ground state. The states are ass

The missing d 1 ⌺ ϩ state has been observed for the first time and its spectroscopic parameters are consistent with the theoretical predictions of S. R. Langhoff and W. Bauschlicher, Jr. [J. Mol. Spectrosc. 143, 169 -179 (1990)]. Rotational analysis of a number of bands has been obtained and improve

The equilibrium geometries, excitation energies, force constants, and vibrational frequencies of the low-lying electronic states X2B1, 2A1, 2B2, and 2A2 of the PF2 radical have been calculated at the MRSDCI level with a double zeta plus polarization basis set. Our calculated geometry, force constant

## Abstract The global potential energy curves for the 14 low‐lying doublet and quartet Λ‐S states of InCl^+^ are calculated at the scalar relativistic MR‐CISD+Q (multireference configuration interaction with single and double excitations, and Davidson's correction) level of theory. Spin‐orbit coup

## Abstract __Ab initio__ calculations on the low‐lying electronic states of SiF^+^ are performed using the internally contracted multireference configuration interaction method with the Davidson correction and entirely uncontracted aug‐cc‐pV5Z basis set. The effects of spin‐orbit coupling are acco