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A. S. PINE, Alpine Technologies, 14401 Poplar Hill Road, Germantown, MD 20874.
Asymmetric line shapes have been observed for infrared transitions of Ar-broadened HF and were fit to Dicke-narrowed profiles with an empirical partial correlation between velocity- and state-changing collisions. That analysis yielded measured broadening and shifting coefficients in excellent agreement with the thermally-averaged values calculated from exact quantum close-coupled scattering cross-section based on a realistic van der Waals potential . However, some anomalies in the sense of the asymmetries and the magnitude and J dependence of the velocity-changing rates remained, which subsequently were addressed classically by Joubert et al. and quantum mechanically by Demeio et al. . Here, we reexamine those line shapes with the correlated speed-dependent strong-collision Dicke-narrowed profiles described above using the reliable energy-dependent cross-sections of Green and Hutson. For HF/Ar below one atmosphere, Dicke narrowing dominates the speed dependence.