15min:

A. G. ADAM, L. E. DOWNIE, S. J. FORAN AND A. D. GRANGER, Chemistry Department, and Centre for Lasers, and Atomic, and Molecular Sciences, University of New Brunswick, Fredericton, NB, E3B 5A3; AND D. FORTHOMME, C. LINTON AND D. W. TOKARYK, Physics Department, and Centre for Lasers, and Atomic, and Molecular Sciences, University of New Brunswick, Fredericton, NB, E3B 5A3.

High resolution laser spectra of IrF and IrCl have been acquired in the visible region of the spectrum. The molecules were produced by laser ablation of an iridium target rod followed by reaction with 1% SF₆ or CHCl₃ seeded in He in a pulsed supersonic jet. The characterization and preliminary analysis of two electronic transitions of IrF, A³ - X³ and B³ - X³ , observed by laser-induced fluorescence between 450 nm and 665 nm, were reported at this conference last year (paper MF11). However, the 3-0 band of the A-X system was perturbed and we present the results of the deperturbation and the final analysis here. New spectra of the IrCl molecule have been taken. A strong transition with an upper state vibrational progression between 530 to 575 nm has been observed. Dispersed fluorescence from the bands gives a ground state vibrational interval of approximately 413 cm^-1. Molecular constants for the excited and ground states which, like IrF, are consistent with a ³ ₄ - X³ ₄ assignment, will be presented.