Application and development of the Schwinger multichannel scattering theory and the partial differential equation theory of electron-molecule scattering. Final report
One version of the multichannel theory for electron-target scattering based on the Schwinger variational principle, the SMC method, requires the introduction of a projection parameter. The role of the projection parameter a is investigated and it is shown that the principal-value operator in the SMC equation is Hermitian regardless of the value of a as long as it is real and nonzero. In a basis that is properly orthonormalizable, the matrix representation of this operator is also Hermitian. The use of such basis is consistent with the Schwinger variational principle because the Lippmann-Schwinger equation automatically builds in the correct boundary conditions. Otherwise, an auxiliary condition needs to be introduced, and Takatsuka and McKoy's original value of a is one of the three possible ways to achieve Hermiticity. In all cases but one, a can be uncoupled from the Hermiticity condition and becomes a free parameter. An equation for a based on the variational stability of the scattering amplitude is derived; its solution has an interesting property that the scattering amplitude from a converged SMC calculation is independent of the choice of a even though the SMC operator itself is a-dependent. This property provides a sensitive test of the convergence of the calculation. For a static-exchange calculation, the convergence requirement only depends on the completeness of the one-electron basis, but for a general multichannel case, the a-invariance in the scattering amplitude requires both the one-electron basis and the N plus 1-electron basis to be complete. The role of a in the SMC equation and the convergence property are illustrated using two examples: e-CO elastic scattering in the static-exchange approximation, and a two-state treatment of the e-H2 Chi[sup 1]Sigma[sub g](+) yields b[sup 3]Sigma[sub u](+) excitation.
- Research Organization:
- Florida Agricultural and Mechanical Univ., Tallahassee, FL (United States)
- OSTI ID:
- 5172294
- Report Number(s):
- N-94-24798; NASA-CR-194774; NAS-1.26:194774; CNN: NCC2-492
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
CARBON MONOXIDE
ELECTRON-MOLECULE COLLISIONS
ELASTIC SCATTERING
HYDROGEN
SCHWINGER VARIATIONAL METHOD
CALCULATION METHODS
CARBON COMPOUNDS
CARBON OXIDES
CHALCOGENIDES
COLLISIONS
ELECTRON COLLISIONS
ELEMENTS
MOLECULE COLLISIONS
NONMETALS
OXIDES
OXYGEN COMPOUNDS
SCATTERING
VARIATIONAL METHODS
664300* - Atomic & Molecular Physics- Collision Phenomena- (1992-)