Photodissociation of Hydrated Hydrogen Iodide Clusters

## Abstract For Abstract see ChemInform Abstract in Full Text.

A continuous supersonic molecular beam of small methanol clusters is crossed by the radiation of a pulsed CO2 laser. Subsequent scattering by a secondary He beam disperses the cluster beam and allows the off-axis detection of selected cluster species, undisturbed by ionizer fragmentation artifacts.

The time-of-flight spectra of Ar+ produced in the photodissociation of Ar: were observed in the wavelength range of 460-590 nm. Analysis revealed that (I ) the kinetic energy distribution of Ar\* fragments is bimodal: the components having a released kinetic energy of x0.5-1.0 eV (fast component) an

The pholofragment time-of-flight (TOF) spectra of Arz (4~n66) were measured in the wavelength range of 465-585 nm. The photofragment observed were Ar+ and A$. Analysis of the TOF spectra revealed that the angular and the kinetic energy distributions of the Ar\* fragment resemble those observed in t

Photodissociation spectra of (N,H,), clusters from the dimer to the hexamer have been measured near the monomer frequencies of the v,~ mode at 937 cm-' (NH2 wag) and the u5 mode at 1098 cm-' (N-N stretch). The clusters are size-selected by the combination of a scattering process with a He beam and a