Angular dependence of dissociative electron attachment to polyatomic molecules: application to the 2B1 metastable state of the H2O and H2S anions
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Angular dependence of dissociative electron attachment to polyatomic molecules: application to the 2B1 metastable state of the H2O and H2S anions

  • Author(s): Haxton, Daniel J.
  • McCurdy, C. William
  • Rescigno, Thomas N.
  • et al.
Abstract

The angular dependence of dissociative electron attachment (DEA) to polyatomic targets is formulated in the local complex potential model, under the assumption that the axial recoil approximation describes the dissociation dynamics. An additional approximation, which is found to be valid in the case of H2O but not in the case of H2S, makes it possible to describe the angular dependence of DEA solely from an analysis of the fixed-nuclei entrance amplitude, without carrying out nuclear dynamics calculations. For H2S, the final-vibrational-state-specific angular dependence of DEA isobtained by incorporating the variation of the angular dependence of the entrance amplitude with nuclear geometry into the nuclear dynamics. Scattering calculations using the complex Kohn method and, for H2S, full quantum calculations of the nuclear dynamics using the Multi-Configuration Time-Dependent Hartree method, are performed.

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