Accurate Density Functional for the Energy: Real-Space Cutoff of the Gradient Expansion for the Exchange Hole
- 14 October 1985
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 55 (16) , 1665-1668
- https://doi.org/10.1103/physrevlett.55.1665
Abstract
The density-gradient expansion of the fermion exchange hole is analyzed in real space. Unlike the local-density approximation, the second-order gradient-expansion approximation is found to violate two important properties of the exact hole: The exact hole is negative everywhere, and represents a deficit of one electron. Imposition of these exact constraints leads to an accurate new density functional for the exchange energy. Residual errors in the exchange energy for atoms are about 1% of this quantity. The new functional approximation may be generalized to include correlation.Keywords
This publication has 19 references indexed in Scilit:
- Density-functional formalism: Sources of error in local-density approximationsPhysical Review Letters, 1985
- Total-energy differences: Sources of error in local-density approximationsPhysical Review B, 1985
- Beyond the local-density approximation in calculations of ground-state electronic propertiesPhysical Review B, 1983
- Bonding in the first-row diatomic molecules within the local spin-density approximationPhysical Review B, 1982
- Easily Implementable Nonlocal Exchange-Correlation Energy FunctionalPhysical Review Letters, 1981
- Self-interaction correction to density-functional approximations for many-electron systemsPhysical Review B, 1981
- Extensions of the LSD approximation in density functional calculationsThe Journal of Chemical Physics, 1980
- Descriptions of exchange and correlation effects in inhomogeneous electron systemsPhysical Review B, 1979
- Corrections to the Local Density Approximation: Gradient Expansion versus Wave-Vector Analysis for the Metallic Surface ProblemPhysical Review Letters, 1977
- Correlation Energy of an Electron Gas with a Slowly Varying High DensityPhysical Review B, 1968