ANALYSIS OF THE HYPERFINE STRUCTURE IN THE [20.6]5 - X4 TRANSITION OF COBALT MONFLUORIDE.
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Date
2003
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Ohio State University
Abstract
The high resolution visible laser spectrum of the 484 nm band system of cobalt monofluoride has been obtained. The molecules were produced by reaction of laser ablated cobalt atoms with $1% SF_{6}$ seeded in He under supersonic jet conditions. The $0-0$ and $1-0$ bands of the system were probed with a Coherent 699-29 cw ring dye laser giving experimental linewidths on the order of 200 MHz. The appearance of the spectrum at low resolution where a strong $R-$, and weaker $Q-$, and P-branches were observed is indicative of $\Delta \Lambda = \Delta\Omega =+1$. This and analysis of the first lines yields a value of omega=4 for the ground state, consistent with earlier work, and a value of omega=5 for the upper state. Comparison with calculations on CoH has allowed this transition to be assigned as the $[20.6]^{3}\Gamma_{5} - X^{3}\Phi_{4}$ transition. The molecular constants derived from a nonlinear least squares fit to the data will be presented.
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Author Institution: Department of Chemistry, University of New Brunswick