Shape and width of IR absorption lines of ammonia expanded in a supersonic jet

## High-resolution computationsof the shape and width of CO absorption lines in supersonic free jetsare presented. TTw shape of the absorption line depends on the evolution of the density and temperature aaoss the jet and on the rotational line considered;it can exhibit a large dip at the top. The

The hydrodynamic structure of an axisymmetric supersonic expansion can be regarded as a series of concentric divergent cones, with decreasing particle densities as the cone angle increases. Different groups of molecules therefore contribute to high-resolution absorption line shapes when optically pr

A newly designed two-dimensional corona-excited slit nozzle discharge is described and its first applications for direct absorption spectroscopy of molecular ions in a supersonic expansion in the infrared (NO+ ) and far-infrared (N,H+ ). The results are discussed and it will be shown that under the

We report the first successful demonstration of a LIF study performed on small molecular ions in a jet expansion produced by resonantly enhanced multiphoton ionization. The study involves the 2 + 1 multiphoton ionization via the B 'X + state ofjet-cooled CO molecules. Sufftcient downstream densities