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Climbing the Density Functional Ladder: Nonempirical Meta–Generalized Gradient Approximation Designed for Molecules and Solids
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Abstract
The electron density, its gradient, and the Kohn-Sham orbital kinetic energy density
are the local ingredients of a meta-generalized gradient approximation (meta-GGA).
We construct a meta-GGA density functional for the exchange-correlation energy that
satisfies exact constraints without empirical parameters. The exchange and correlation
terms respect two paradigms: one- or two-electron densities and slowly varying densities,
and so describe both molecules and solids with high accuracy, as shown by extensive
numerical tests. This functional completes the third rung of "Jacob's ladder" of approximations,
above the local spin density and GGA rungs.