Electronic States of Scandium Monochloride

We present the results of a study of singlet transitions of scandium monochloride, corresponding to (i) the developed red C(2) 1 S / r X 1 S / and infrared B(1) 1 P r X 1 S / systems observed in thermal emission, (ii) fluorescence from (3) 1 P to B(1) 1 P and from (3) 1 S / to B(1) 1 P, following ex

The many electronic transitions observed in high-resolution spectra of the fluorescence of scandium monoiodide following excitation by Ar / and Kr / laser lines have been extensively analyzed. Equilibrium vibrational and rotational constants are obtained for the six lowest electronic states. Spin-or

## 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

Much work has been devoted in the past to the spectroscopy of transition metal monohalides, essentially because they are of considerable interest in the fields of catalytic chemistry and high-temperature chemistry. In particular, diatomic compounds of group IIIb atoms, Sc, Y, and La, were the best s