H2+ Wavefunctions and the Lennard-Jones-Brillouin-Wigner procedure for the determination of the Π and Δ states of Li2+ and LiH+

We have observed the rotational levels in the v ϭ 2, 3, 5, 6, 7, and 8 vibrational manifolds of the 2 1 ⌬ g state of 7 Li 2 via the A 1 ⌺ u ϩ intermediate levels by ⌬⌳ ϭ 2 transitions. This violation of the ⌬⌳ ϭ 0, Ϯ1 selection rule is due to the interaction with the G 1 ⌸ g state. Band-by-band depe

## Recent experiments by Bergeman and tire led to a dipole moment of l&l = 1 .lO k 0.03 D for the v = 3 vibrational level of the A\* C' stzte of NO, whereas conflgxation interaction (CI) stud& by Green led to p = 0.39 D (N+O-), a serious discrepancy. We report herein ab initjo generalized valence

The laser-and collision-induced fluorescence of Li2 molecules in a heat-pipe, excited by a tunable frequency-doubled mode-locked cavity-dumped cw dye laser into selected rovibrational levels of the C lI1. state, was observed with spectral resolution using a monochromator and with temporal resolution

An experimental study of the 3 3 ⌸ g electronic state of 7 Li 2 , using the Perturbation-Facilitated Optical-Optical Double Resonance (PFOODR) technique, was recently reported [A. Yiannopoulou et al., J. Chem. Phys. 103, 5898, (1995)]. However, due to the very small number of known 7 Li 2 A 1 ⌺ u ϩ