THE INFLUENCE OF NUCLEAR VOLUME AND ELECTRONIC STRUCTURE ON THE ROTATIONAL ENERGY OF PLATINUM MONOXIDE, PtO
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Date
2005
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Ohio State University
Abstract
The pure rotational spectra of seven isotopic species of platinum monoxide in its $X0^+$ electronic ground state have been measured with a cavity pulsed jet Fourier-transform microwave spectrometer. The molecules were prepared by laser ablation of Pt foil in the presence of O$_2$ and stabilized in a supersonic jet of argon. A multi-isotopomer Dunham-type analysis of the spectra produced values for $Y_{01}$ and $Y_{11}$, along with unusually large values for the Born-Oppenheimer breakdown (BOB) parameters for both Pt and O. The values of the BOB parameters have been rationalized in terms of the molecular electronic structure and finite nuclear size (field shift) effects. A large negative $^{195}$Pt effective nuclear spin-rotation constant has been rationalized in terms of the electron-nucleus dipole-dipole hyperfine constant. Precise internuclear separations have been evaluated.
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Author Institution: Department of Chemistry, The University of British Columbia, 2036 Main Mall, Vancouver, British Columbia, Canada, V6T 1Z1