4.5 Article

Vibrational levels of formaldehyde: Calculations from new high precision potential energy surfaces and comparison with experimental band origins

Publisher

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.jqsrt.2020.107478

Keywords

Formaldehyde; Potential energy surface; Vibrational energy levels; Kinetic energy operator

Funding

  1. RFBR [19-03-00581]
  2. Academic D.Mendeleev program of Tomsk State University
  3. LEFE CHAT CNRS program
  4. CNRS LIA SAMIA French-Russion collaboration program

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The vibrational energy levels of H2CO were calculated using variational nuclear motion calculations based on ab initio potential energy surfaces. The study showed that the ab initio vibrational levels were more consistent than experimental levels, especially in the extended range up to 4500 cm(-1). Additionally, optimizing parameters could reduce the error between calculated and experimental values.
Vibrational energy levels of H2CO are reported using variational nuclear motion calculations from new ab initio and empirically optimized full 6-dimensional ab initio potential energy surfaces in the ground electronic state of the formaldehyde molecule. Ab initio calculations were carried out using extended electronic structure coupled-cluster calculations accounting for dynamic electron correlations including triple and quadruple excitations as well as relativistic and diagonal Born-Oppenheimer corrections. Variational nuclear motion calculations are compared in different sets of coordinates with exact kinetic energy operator and in normal coordinates with Watson-Eckart kinetic energy operator. Our best ab initio potential energy surface including the above mentioned contributions provides the RMS (obs.-calc.) errors of 0.25 cm(-1) for fifteen vibrational band origins without empirically adjusted parameters. The average error drops down to 0.08 cm(-1) for an empirically optimized potential energy function with six adjusted parameters corresponding to quadratic force field terms. The estimation of the accuracy for the calculated vibrational levels in an extended range up to 4500 cm(-1) shows that the set of ab initio vibrational levels could be more consistent than experimental levels obtained from earlier studies of low resolution spectra. The comparison of the calculated and experimental vibrational energy levels of the 2CO isotopologue is also reported. (C) 2020 Elsevier Ltd. All rights reserved.

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