Extension of nonadiabatic hyperspherical method to non-electronic systems
Abstract
The purpose of this paper is to extend the nonadiabati~ hyperspherical method developed by Hornos, MacDowell, and Caldwell (1985) for the case of two electrons orbiting about a stationary atomic core to the case of two particles of arbitrary mass and charge orbiting about a stationary atomic core. Single and four channel results will be calculated for the lowest radial curves of systems with one positive and one negative charge. The results for the bound state resonance energy and scattering phase shift compare well to those calculated by other methods.
Notes
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Graduation Date
1989
Semester
Fall
Advisor
Caldwell, C. Denise
Degree
Master of Science (M.S.)
College
College of Arts and Sciences
Department
Physics
Format
Pages
54 p.
Language
English
Length of Campus-only Access
None
Access Status
Masters Thesis (Open Access)
Identifier
DP0026939
Subjects
Arts and Sciences -- Dissertations, Academic; Dissertations, Academic -- Arts and Sciences
STARS Citation
Johnson, Earl R., "Extension of nonadiabatic hyperspherical method to non-electronic systems" (1989). Retrospective Theses and Dissertations. 4163.
https://stars.library.ucf.edu/rtd/4163
Accessibility Status
Searchable text