Theory of electronically inelastic scattering of electrons by molecules
- 1 October 1984
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review A
- Vol. 30 (4) , 1734-1740
- https://doi.org/10.1103/physreva.30.1734
Abstract
We discuss a multichannel formulation of the Schwinger and a related variational principle (of one order higher than the Schwinger principle) in a form suitable for application to the scattering of low-energy electrons by both linear and nonlinear molecules. The theory includes the effects of polarization straightforwardly and should be particularly useful for obtaining electronically inelastic cross sections. An expansion of the trial scattering wave function in a discrete basis is possible. With certain choices for these basis functions this feature can be particularly advantageous.Keywords
This publication has 27 references indexed in Scilit:
- Ab initiooptical potentials applied to low-energyandcollisions in the linear-algebraic approachPhysical Review A, 1983
- Application of a new variational functional for electron-molecule collisions: an extension of the Schwinger variational principleJournal of Physics B: Atomic and Molecular Physics, 1981
- Linear-algebraic approach to electron-molecule collisions: Separable exchange approximationsPhysical Review A, 1981
- Separable approximation for exchange interactions in electron-molecule scatteringPhysical Review A, 1981
- Iterative approach to the Schwinger variational principle for electron-molecule collisionsPhysical Review A, 1980
- Electron scattering by diatomic molecules: Iterative static-exchange techniquesPhysical Review A, 1980
- The theory of electron-molecule collisionsReviews of Modern Physics, 1980
- Zero-point vibration in low-energy electron-molecule scattering theoryJournal of Physics B: Atomic and Molecular Physics, 1979
- Theory of Low Energy Electron -Molecule CollisionsPublished by Elsevier ,1979
- Pseudostates and low-energy electron-molecule collisions: applications to H2 and N2Chemical Physics Letters, 1977