Vibrational-excitation cross sections of ground electronic states of a carbon dioxide molecule by electron-impact through CO2-((2)Pi(u)) shape resonance is considered in the separation of the normal modes approximation. Resonance curves and widths are computed for each vibrational mode. The calculations assume a decoupling between normal modes and employ the local complex potential model for the treatment of nuclear dynamics, usually adopted for electron-scattering involving diatomic molecules. Results are presented for excitation up to 10 vibrational levels in each mode and a comparison with data present in the literature is discussed.
Calculated low-energy electron-impact vibrational excitation cross sections for CO2 molecule
Laporta V;
2016
Abstract
Vibrational-excitation cross sections of ground electronic states of a carbon dioxide molecule by electron-impact through CO2-((2)Pi(u)) shape resonance is considered in the separation of the normal modes approximation. Resonance curves and widths are computed for each vibrational mode. The calculations assume a decoupling between normal modes and employ the local complex potential model for the treatment of nuclear dynamics, usually adopted for electron-scattering involving diatomic molecules. Results are presented for excitation up to 10 vibrational levels in each mode and a comparison with data present in the literature is discussed.| File | Dimensione | Formato | |
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prod_401266-doc_172712.pdf
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Descrizione: Calculated low-energy electron-impact vibrational excitation cross sections for CO2 molecule
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