Relevance of the slowly-varying electron gas to atoms, molecules, and solids
Abstract
Under a certain scaling, the electron densities of finite systems become both large and slowly-varying, so that the gradient expansions of the density functionals for the Kohn-Sham kinetic and exchange energies become asymptotically exact to order ∇2. Neutral atoms of large Z scale similarly, but a cusp correction at the nucleus requires generalizing the gradient expansion for exchange, producing the wrong gradient coefficient in the slowly-varying limit. Meta-generalized gradient approximations (meta-GGA's) recover both the slowly-varying and large-Z limits. GGA correlation energies of large-Z atoms are found to be accurate.
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