On the C1Σ+ State of LaH

Thermal emission of scandium monofluoride has been spectroscopically investigated at high resolution in the region \(7000-12000 \mathrm{~cm}^{-1}\) with a Fourier transform spectrometer. The predicted low-energy \(c^{3} \Sigma^{+}\)state is observed in a transition to the ground state; six bands of

Polarization labelling spectroscopy of the B 1 ← X 1 + and C 1 + ← X 1 + band systems in KLi reveals strong mutual perturbation of the B and C states. We show that both excited states can be described in a model comprising numerical IPA potentials for the unperturbed states and only 3 parameters to

The results from the separate analyses demonstrate clearly that the two hamiltonian operators are essentially equivalent, both achieving equally satisfactory representations of the spectral data, and furnishing virtually identical Born-Oppenheimer potential functions. Fully quantum-mechanical vibrat

YN molecules were produced in a free jet molecular beam apparatus by a laser vaporizing yttrium metal in the presence of He doped with NH 3 . Laser excitation spectra were observed in the range 18 250-19 850 cm -1 . The ground state was confirmed to have 1 + symmetry. The fundamental vibration in th