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Electron--impact resonant vibration excitation cross sections and rate coefficients for carbon monoxide

Resonant vibrational and rotation-vibration excitation cross sections for electron-CO scattering are calculated in the 0-10 eV energy range for all 81 vibrational states of CO, assuming that the excitation occur via the 2Π shape resonance. Static exchange plus polarization calculations performed using the R-matrix method are used to estimate resonance positions and widths as functions of internuclear separation. The effects of nuclear motion are considered using a local complex potential model. Good agreement is obtained with available experimental data on excitation from the vibrational ground state. Excitation rates and cross sections are provided as a functions of the initial CO vibrational state for all ground state vibrational levels.

preprint2012arXivOpen access
V. LaportaC. M. CassidyJ. TennysonR. Celiberto
physics.plasm-phphysics.chem-ph
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V. LaportaC. M. CassidyJ. TennysonR. Celiberto

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