Fingerprint region of the formic acid dimer: variational vibrational computations in curvilinear coordinates

• URL: http://arxiv.org/abs/2012.03010v2
• Date: Fri, 5 Mar 2021 20:41:25 GMT
• Title: Fingerprint region of the formic acid dimer: variational vibrational computations in curvilinear coordinates
• Authors: Alberto Martin Santa Daria, Gustavo Avila, and Edit Matyus
• Abstract summary: Curvilinear kinetic energy models are developed for variational nuclear motion computations. The coupling of the inter- and intra-molecular modes is studied by solving the vibrational Schr"odinger equation for a series of vibrational models.
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• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Curvilinear kinetic energy models are developed for variational nuclear motion computations including the inter- and the low-frequency intra-molecular degrees of freedom of the formic acid dimer. The coupling of the inter- and intra-molecular modes is studied by solving the vibrational Schr\"odinger equation for a series of vibrational models, from two up to ten active vibrational degrees of freedom by selecting various combinations of active modes and constrained coordinate values. Vibrational states, nodal assignment, and infrared vibrational intensity information is computed using the the full-dimensional potential energy surface (PES) and electric dipole moment surface developed by Qu and Bowman [Phys. Chem. Chem. Phys. 18, 24835 (2016); J. Chem. Phys. 148, 241713 (2018)]. Good results are obtained for several fundamental and combination bands in comparison with with jet-cooled vibrational spectroscopy experiments, but the description of the $\nu_8$ and $\nu_9$ fundamental vibrations, which are close in energy and have the same symmetry, appears to be problematic. For further progress in comparison with experiment, the potential energy surface, and in particular, its multi-dimensional couplings representation, requires further improvement.

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