Transformation Properties under the Operations of the Molecular Symmetry Groups $G_{36}$ and $G_{36}\text{(EM)}$ of Ethane $\text{H}_3\text{CCH}_3$
Thomas M. Mellor, Sergey N. Yurchenko, Barry P. Mant, Per Jensen

TL;DR
This paper details the symmetry properties of ethane using the groups G_{36} and G_{36}(EM), facilitating variational calculations of its rotation-vibration spectra through derived transformation matrices and symmetry-adapted basis functions.
Contribution
It introduces a comprehensive derivation of transformation matrices for ethane's symmetry groups and algorithms for their numerical construction, enhancing spectral calculations for non-rigid molecules.
Findings
Derived transformation matrices for G_{36} and G_{36}(EM)
Implemented symmetry adaptation in the TROVE program
Applied methodology to potential energy and basis functions
Abstract
In the present work, we report a detailed description of the symmetry properties of the eight-atomic molecule ethane, with the aim of facilitating the variational calculations of rotation-vibration spectra of ethane and related molecules. Ethane consists of two methyl groups where the internal rotation (torsion) of one group relative to the other is of large amplitude and involves tunneling between multiple minima of the potential energy function. The molecular symmetry group of ethane is the 36-element group but the construction of symmetrized basis functions is most conveniently done in terms of the 72-element extended molecular symmetry group . This group can subsequently be used in the construction of block-diagonal matrix representations of the ro-vibrational Hamiltonian for ethane. The derived transformation matrices…
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Taxonomy
TopicsMolecular Spectroscopy and Structure · Advanced Chemical Physics Studies · Molecular spectroscopy and chirality
