R.E. Sherrod scite author profile

A general nonparameterized continuum scattered wave (CMS) method for calculating total and differential elastic cross sections for electron-molecule scattering at low energies (0-30 eV) is presented. The method uses a local exchange approximation based on the Hara free electron gas model. The parameters required for exchange potential and the energy-dependent polarization potential are generated entirely within the calculation. CMS results for argon and methane are presented. The argon results compare very favorably with results recently obtained from an ab-initio R-matrix method. At very low energies the results agree very well with recent experimental work for the scattering length and the position and magnitude of the Ramsauer-Townsend minima observed for both argon and methane. An analysis of the potential suggests that the Slater transition-state half-occupation method used to generate the scattering potential could be a way of automatically including both a self-interaction correction and a weak correlation-polarization term similar to that obtained from the accurate electron gas correlation expression of Ceperly and Alder.

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Advanced characterization technique for mechanochemically synthesized materials: neutron total scattering analysis

O’Quinn

Bishop

Sherrod

et al. 2018

J Mater Sci

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Overlapping spheres Xα calculatons of the electron affinities and ionization potentials of ethylene, parabenzoquinone and their perfluoro derivatives

Bloor

Paysen

Sherrod

1979

Chemical Physics Letters

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R.E. Sherrod

Theoretical studies on the physical properties and bonding of the 5d metal hexafluorides using the multiple scattering X.alpha. technique

A continuum multiple scattering method for the treatment of elastic electron-molecule scattering. Total and DCS cross sections for argon and methane

Advanced characterization technique for mechanochemically synthesized materials: neutron total scattering analysis

Overlapping spheres Xα calculatons of the electron affinities and ionization potentials of ethylene, parabenzoquinone and their perfluoro derivatives

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