Abstract
SynopsisA robust potential which embeds fully the vital core polarization interaction has been used in the Regge-pole method to explore low-energy electron scattering from C60, Eu and Nb through the total cross sections (TCSs) calculation. From the characteristic dramatically sharp resonances in the TCSs manifesting negative ion formation in these systems, we extracted the binding energies (BEs) for the C60−, Eu− and Nb− anions. Our BE for C60− ground state is in outstanding agreement with the measured electron affinity (EA) of C60 [1]. For anionic Eu− and Nb− our BEs are compared with the measured EAs [2-4].
Highlights
- Application of a mathematical problem to the symmetry of fullerene C60 G R Vakili-Nezhaad and A R Ashrafi
It has been accepted for inclusion in Clark Atlanta University Faculty Publications by an authorized administrator of DigitalCommons@Robert W
Synopsis A robust potential which embeds fully the vital core polarization interaction has been used in the Regge-pole method to explore low-energy electron scattering from C60, Eu and Nb through the total cross sections (TCSs) calculation
Summary
- Application of a mathematical problem to the symmetry of fullerene C60 G R Vakili-Nezhaad and A R Ashrafi. Binding energies of fullerene and complex atomic negative ions Follow this and additional works at: http://digitalcommons.auctr.edu/caupubs Part of the Physics Commons Msezane, Alfred and Felfli, Zineb, "Binding energies of fullerene and complex atomic negative ions" (2017).
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