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CanadaThe author has granted a nonexclusive licence allowing the National Library of Canada to reproduce, loan, distribute or sell copies of this thesis in microform, paper or electronic formats.The author retains ownership of the copyright in this thesis. Neither the thesis nor substantial extracts fkom it may be printed or othewise reproduced without the author's permission.
Your t m Vorre mlsrsnceOur fi& Notre relereme L'auteur a accorde une licence non exclusive pennettant a la Bibliotheque nationale du Canada de reproduire, prster, distribuer ou vendre des copies de cette these sous la forme de rnicrofiche/film, de reproduction sur papier ou sur format electronique.L'auteur conserve la propriete du droit d'auteur qui protege cette these. Ni la these ni des extraits substantiels de celle-ci ne doivent 6tre imprimes ou autrement reproduits sans son autorisation. The van der Waals complexes. Na-XR (X=F. C1. Br, R=CH3; and X=F. R=H), have been generated by crossing a beam of sodium with the expansion region of a supersonic jet of the appropriate halide in an inert-carrier gas. The complexes were identifled by photoionization time-of-flight mass spectrometry.Depletion of the complexes was observed following photoexcitation using a broad range of wavelengths. 711. Initial excitation of the N a chromophore within the complex is believed to be followed by charge-transfer dissociation;An experimental study of the photodepletion of Na-XR complexes has been made, and the results have been compared to recent ab initio studies of the same process. Photoexcitation of Na-XR accesses a potential-energy surface (PES) for the reaction Na*+XR+NaX+R, at a configuration intermediate between the reactants. Na*+XR, and products. NaX+R. We. therefore. den0 te the excited-state species as a transition state. TS, indica...
