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Systematic calculation of molecular vibrational spectra through a complete Morse expansion

Chemical Physics 2009-11-13 v1 Computational Physics
Authors: Andrea Bordoni , Nicola Manini
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Abstract

We propose an accurate and efficient method to compute vibrational spectra of molecules, based on exact diagonalization of an algebraically calculated matrix based on powers of Morse coordinate. The present work focuses on the 1D potential of diatomic molecules: as typical examples, we apply this method to the standard Lennard-Jones oscillator, and to the ab initio potential of the H2 molecule. Global cm-1 accuracy is exhibited through the H2 spectrum, obtained through the diagonalization of a 30 x 30 matrix. This theory is at the root of a new method to obtain globally accurate vibrational spectral data in the context of the multi-dimensional potential of polyatomic molecules, at an affordable computational cost.

Keywords

computational physics variational methods in physics spectral theory

Cite

@article{arxiv.0708.4373,
  title  = {Systematic calculation of molecular vibrational spectra through a complete Morse expansion},
  author = {Andrea Bordoni and Nicola Manini},
  journal= {arXiv preprint arXiv:0708.4373},
  year   = {2009}
}

Comments

30 pages including 6 figures

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