Article
Differential Cross Sections for the Ionization of Oriented H₂ Molecules by Electron Impact
Physical Review Letters
Abstract
A nonperturbative close-coupling technique is used to calculate differential cross sections for the electron-impact ionization of H2 at an energy of 35.4 eV. Our approach allows cross sections for any orientation of the molecule with respect to the incident electron beam to be analyzed. New features in the resulting cross sections are found compared with the case where the molecular orientation is averaged, and also with cross sections for He at equivalent electron kinematics. When averaged over all possible molecular orientations, good agreement is found with recent experimental results.
Department(s)
Physics
Keywords and Phrases
- Electron beams,
- Electrons,
- Helium,
- Ionization,
- Molecular orientation,
- Coupling techniques,
- Cross sections,
- Differential cross sections,
- Electron impacts,
- H2 molecules,
- Incident electron beams,
- Nonperturbative,
- Impact ionization
Document Type
Article - Journal
Document Version
Final Version
File Type
text
Language(s)
English
Rights
© 2008 American Physical Society (APS), All rights reserved.
Publication Date
12-1-2008
Publication Date
01 Dec 2008
Disciplines
Citation Information
James Colgan, Michael S. Pindzola, Francis J. Robicheaux, Christian V. Kaiser, et al.. "Differential Cross Sections for the Ionization of Oriented H₂ Molecules by Electron Impact" Physical Review Letters Vol. 101 Iss. 23 (2008) p. 233201-1 - 233201-4 ISSN: 0031-9007 Available at: http://works.bepress.com/don-madison/170/