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E. S. BEKHTEREVA, O. N. ULENIKOV, S. ALBERT, S. BAUERECKER, H. HOLLENSTEIN AND M. QUACK, Physical Chemistry, ETH-Z\ddoturich, CH-8093.
Methane is an important prototype for intramolecular dynamics [1] and of relevance in a variety of spectroscopic contexts [2]. We measured the infrared spectrum of CH2D2 at 78 K in the range 2800 - 6600 cm-1 with the Z\ddoturich high resolution (up to 0.0007 cm-1) Fourier transform interferometer Bruker IFS 125 prototype (ZP 2001) equipped with an enclosive flow cooling cell. More than 75 vibrational bands were newly assigned and analyzed rovibrationally. Precise (
0.0001 - 0.0003 cm-1) experimental band centers were combined with previously known band centers (93 altogether) and used as the initial information for the determination of the set of 9 "harmonic" (
) and 41 quartic anharmonic (x
µ) parameters, as well as 7 resonance interaction parameters. The derived set of effective Hamiltonian parameters reproduce the vibrational structure of the CH2D2 molecule up to 6600 cm-1 with a rms deviation of 0.54 cm-1.
The data obtained were used then for estimating of "experimental" values of Fij, Fijk, and Fijkl force constants of the methane intramolecular potential function. The comparison of these with the earlier experimental and ab initio results is discussed.
[1] R. Marquardt and M. Quack, J. Phys. Chem. A 108, 3166 (2004) (and references cited therein).
[2] O. N. Ulenikov, E. S. Bekhtereva, S. V. Grebneva, H. Hollenstein, and M. Quack, Phys. Chem. Chem. Phys. 7, 1142 (2005) (and references cited therein).