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C. LAUZIN, K. DIDRICHE, M. HERMAN, Service de Chimie quantique et Photophysique CP160/09, Faculté des Sciences, Université Libre de Bruxelles (U.L.B.), Av. Roosevelt, 50, B-1050, Bruxelles, Belgium; AND L. H. COUDERT, LISA, CNRS/Universités Paris Est et Paris Diderot, 61 Avenue du Général de Gaulle, 94010 Créteil, France.
New spectra of the Ar-C2H2 van der Waals complex have been recorded using FANTASIO+, a new experimental setup with improved signal to noise and measurement accuracy over the previous one, FANTASIO. The spectra span the 6500--6600~cm-1 region corresponding to the
1 +
3 band of isolated acetylene. Several bands of the complex were observed. The strongest one connects the two ground van der Waals states and could be rotationally assigned. The yet unassigned weaker bands are combination bands involving changes in the van der Waals modes quantum numbers.
The new experimental data have first been used to refine an ab initio potential energy surface (PES) obtained at CCSD(T) level with large basis sets including bond functions. Combination differences involving rotational levels of the strongest band lower state were calculated up to J=9 and Ka=1 and fitted together with microwave\footnoteDeLeon and Muenter, J.~Chem.~Phys. ~ 72 (1980) 6020; and Liu and Jäger, J.~Molec.~Spec. ~ 205 (2001) 177. and infrared data.\footnoteBemish et al., J.~Chem.~Phys. ~ 99 (1993) 8585; and Hu et al., J.~Molec.~Spec. ~ 153 (1992) 486. The approach used in the analysis treats exactly the large amplitude bending and stretching modes and the overall rotation of the complex. The parameters involved in the expansion of the PES were fitted to the line positions yielding RMS values of 0.021~MHz and 0.6× 10-3~cm-1 for the microwave and infrared data, respectively.
The new experimental data have also been used to refine the PES of the complex for the v1=v3=1 vibrational state of acetylene. Using the results of the previous analysis, rotational energies were retrieved for the strongest band upper state and analyzed. The results of this second analysis are not as satisfactory as the previous one. This may be due to perturbations or to the fact that the PES for the upper vibrational state differs from that of the ground vibrational state.