More accurate generalized gradient approximation for solids
Carnegie Institution for Science
Indexed inarxivcrossref
Abstract
We present a nonempirical density functional generalized gradient approximation (GGA) that gives significant improvements for lattice constants, crystal structures, and metal surface energies over the most popular Perdew-Burke-Ernzerhof (PBE) GGA. The functional is based on a diffuse radial cutoff for the exchange hole in real space, and the analytic gradient expansion of the exchange energy for small gradients. There are no adjustable parameters, the constraining conditions of PBE are maintained, and the functional is easily implemented in existing codes.
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2Topics & keywords
Topics
Keywords
- Lattice constant
- Cutoff
- Density functional theory
- Lattice (music)
- Physics
- Crystal (programming language)
- Computational physics
- Materials science
UN Sustainable Development Goals
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