Affiliation:
1. 1Institute of Solid State Physics, Bulgarian Academy of Sciences, Tsarigradsko chaussee 72, 1784, Sofia, Bulgaria
Abstract
AbstractThis paper introduces a fully symmetrized Hamiltonian formalism designed for description of vibrational motion in ammonia (and any XH3 molecule). A major feature of our approach is the introduction of complex basis vibrational wavefunctions in product form, satisfying the complex symmetry species (CSS) of the molecular symmetric top point group (D
3h). The described formalism for ammonia is an adaptation of the approach, previously developed and applied to benzene, based on the CSS of the point group D
6h. The molecular potential energy surface (PES) is presented in the form of a Taylor series expansion around the planar equilibrium state. Using the described formalism, calculations have been carried out on the vibrational overtone and combination levels in 14NH3 up to vibrational excitation energies corresponding to the fourth N-H stretch overtone. The results from the calculations are adjusted to experimentally measured data, in order to determine the values of the harmonic and some anharmonic force constants of the molecular PES.
Subject
Materials Chemistry,General Chemistry
Reference36 articles.
1. G. Herzberg: Molecular Spectra and Molecular Structure. II. Infrared and Raman Spectra of Polyatomic Molecules, Van Nostrand, Princeton, 1945.
2. K.K. Lehmann and S.L. Coy: “Spectroscopy and intramolecular dynamics of highly excited vibrational states of NH3”, Spectrochim. Acta A, Vol. 84, (1988), pp. 1389–1406.
3. S.L. Coy and K.K. Lehmann: “Modeling the rotational and vibrational structure of the i.r. and optical spectrum of NH3”, Spectrochim. Acta A, Vol. 45, (1989), pp. 47–56.
4. C. Cottaz, I. Kleiner, G. Tarrago, L.R. Brown, J.S. Margolis, R.L. Poynter H.M. Pickett, T. Fouchet, P. Drossart and E. Lellouch: “Line positions and intensities in the 2ν2/ν4 vibrational system of 14NH3 near 5–7 μm”, J. Mol. Spectrosc., Vol. 203, (2000), pp. 285–309.
5. I. Kleiner, G. Tarrago and L.R. Brown: “Positions and intensities in the 2ν2/ν2/ν4 vibrational system of 14NH3 near 4 μm”, J. Mol. Spectrosc., Vol. 173, (1995), pp. 120–145.