The Potential Barrier of the B1Πu State of Li2

We have used the e\pc:imental energy levels of the B state of Na2 to determine the shape of the potentL1 curve. The potential curve obtained has been used to determine the Fran&-Condon o\rrlnp of the continuum vibrational levels in the B state with bound levels in the ground ekctronic state.

The D 'II" state of Li, has been investigated with a frequency-doubled narrow-band pulsed dye laser in a cold collimated lithium beam and in a heatpipe. Molecular constants are derived and different kinds of perturbations by several 'Z, states and a nearby 'H, state are found. The results are discus

Model potential calculations of the B r Du-X r xz transition dipole moment are used in conjunction with the empirica potential energy curves of Vidal and Hessel to calc&te the radiative lifetimes of the vibrational levels of the B r Du state. The lifetimes are nearly independent of the vibrational q

In the cohisionahy induced dissociation of the photoexcited B 'II, state of Li,, is found that the 2 ' Psn which has Li(2 \*P)+Li(2 \*S) as products, it fine-structure state is PrcferentiaIIy produced. The 2 \*Psfl and 2 2P1/2 atomic Li state production was measured by observing the fluorescence pro