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Article Dans Une Revue Journal of Chemical Physics Année : 2018

Computing energy levels of CH 4 , CHD 3 , CH 3 D, and CH 3 F with a direct product basis and coordinates based on the methyl subsystem

Résumé

Quantum mechanical calculations of ro-vibrational energies of CH4, CHD3, CH3D, and CH3F were made with two different numerical approaches. Both use polyspherical coordinates. The computed energy levels agree, confirming the accuracy of the methods. In the first approach, for all the molecules, the coordinates are defined using three Radau vectors for the CH3 subsystem and a Jacobi vector between the remaining atom and the centre of mass of CH3. Euler angles specifying the orientation of a frame attached to CH3 with respect to a frame attached to the Jacobi vector are used as vibrational coordinates. A direct product potential-optimized discrete variable vibrational basis is used to build a Hamiltonian matrix. Ro-vibrational energies are computed using a re-started Arnoldi eigensolver. In the second approach, the coordinates are the spherical coordinates associated with four Radau vectors or three Radau vectors and a Jacobi vector, and the frame is an Eckart frame. Vibrational basis functions are products of contracted stretch and bend functions, and eigenvalues are computed with the Lanczos algorithm. For CH4, CHD3, and CH3D, we report the first J > 0 energy levels computed on the Wang-Carrington potential energy surface [X.-G. Wang and T. Carrington, J. Chem. Phys. 141(15), 154106 (2014)]. For CH3F, the potential energy surface of Zhao et al. [J. Chem. Phys. 144, 204302 (2016)] was used. All the results are in good agreement with experimental data.

Dates et versions

hal-02435830 , version 1 (11-01-2020)

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Zhiqiang Zhao, Jun Chen, Zhaojun Zhang, Dong Zhang, Xiao-Gang Wang, et al.. Computing energy levels of CH 4 , CHD 3 , CH 3 D, and CH 3 F with a direct product basis and coordinates based on the methyl subsystem. Journal of Chemical Physics, 2018, 148 (7), pp.074113. ⟨10.1063/1.5019323⟩. ⟨hal-02435830⟩
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