Basis functions for electronic structure calculations on spheres
Abstract
We introduce a new basis function (the spherical gaussian) for electronic structure calculations on spheres of any dimension D. We find general expressions for the one- and two-electron integrals and propose an efficient computational algorithm incorporating the Cauchy-Schwarz bound. Using numerical calculations for the D = 2 case, we show that spherical gaussians are more efficient than spherical harmonics when the electrons are strongly localized.
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