Simulation of the photodissociation of Ar3+

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

New ab initio calculations are reported that indicate Art is a linear, asymmetric, C, molecule with equilibrium bond lengths R, ~2.47 A and R2= 2.73 A. The potential energy surface is very shallow along the asymmetric stretch coordinate indicating excursions of the least bound argon atom of 0.5 to 0

Mg+-Ar ion-molecule complexes are produced in a pulsed supersonic nozzle cluster source. The complexes are mass selected and studied with laser photodissociation spectroscopy in a reflectron time-of-flight mass spectrometer system. An electronic transition assigned as X 2Z++211 is observed with an o

The absolute flues of the photodissociation cross sections and Lineshapes for 29 XTS of predissociative trajlsitions of the Ar-HD xwt der Wtis compkx have been computed. These llneshapes are summed with the correct staristical weightmng and compared with the experimenMly observed spectrum of McKeIk.