dc.creator McCurdy, C. William en_US dc.creator Mowrey, Richard C. en_US dc.creator Lauderdale, Jack G. en_US dc.date.accessioned 2006-06-15T14:41:10Z dc.date.available 2006-06-15T14:41:10Z dc.date.issued 1981 en_US dc.identifier 1981-RF-15 en_US dc.identifier.uri http://hdl.handle.net/1811/11627 dc.description $^{*}$ This work supported by the National Science Foundation en_US dc.description Author Institution: en_US dc.description.abstract By using a complex, scaled Hamiltonian for an atomic or molecular system the wavefunction of a shape resonance can be made square integrable. An alternative approach involves the use of a real Hamiltonian and complex basis functions to achieve the same result. We have used the complex self-consistent field method to study the $^{2}\sum_{u}$ resonance in $e^{-}-H_{2}$ scattering and have obtained the potential energy curve over a range of internuclear distances including the transition region between the resonance and the bound $H_{2}^{-}$ states. en_US dc.format.extent 65297 bytes dc.format.mimetype image/jpeg dc.language.iso English en_US dc.publisher Ohio State University en_US dc.title CALCULATION OF THE $^{2}\sum_{u}$ POTENTIAL ENERGY CURVE FOR $H_{2}^{-}$ USING THE COMPLEX BASIS FUNCTION SELF-CONSISTENT FIELD $METHOD^{*}$ en_US dc.type article en_US
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