Theory of resonance and threshold effects in the electronic excitation of molecules by electron impact

M. Ohno, W. Domcke

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Abstract

A simple model of electron scattering resonances near electronic excitation thresholds is discussed. The model consists of a single discrete electronic state coupled to several electronic continua. The vibrational dynamics in the resonance state is treated, taking proper account of non-Born-Oppenheimer effects in near-threshold electron-molecule scattering. The effect of long-range potentials is included via the threshold expansion of the partial decay widths of the resonance. The analytic properties of the fixed-nuclei S matrix are analyzed in detail for two special cases (s-wave scattering in the absence of long-range potentials and scattering from a strongly polar target molecule). The dipole potential is shown to lead to a qualitatively new behavior of the trajectories of resonance poles near excitation thresholds. The model yields a qualitative description of the measured excitation function of the B1+ state of the CO molecule, where a strong and narrow threshold peak is observed.

Original languageEnglish
Pages (from-to)3315-3327
Number of pages13
JournalPhysical Review A
Volume28
Issue number6
DOIs
StatePublished - 1983
Externally publishedYes

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