The Role of the Reduced Laplacian Renormalization in the Kinetic Energy Functional Development

The Role of the Reduced Laplacian Renormalization in the Kinetic Energy Functional Development

The Laplacian of the electronic density diverges at the nuclear cusp, which complicates the development of Laplacian-level meta-GGA (LLMGGA) kinetic energy functionals for all-electron calculations. Here, we investigate some Laplacian renormalization methods, which avoid this divergence. We develope...

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Veröffentlicht in:Computation 2019, Vol.7 (4), p.65
Hauptverfasser: Śmiga, Szymon, Constantin, Lucian A., Della Sala, Fabio, Fabiano, Eduardo
Format: Artikel
Sprache:eng
Schlagworte:
Density
Energy
Kinetic energy
Mathematical analysis
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Zusammenfassung:The Laplacian of the electronic density diverges at the nuclear cusp, which complicates the development of Laplacian-level meta-GGA (LLMGGA) kinetic energy functionals for all-electron calculations. Here, we investigate some Laplacian renormalization methods, which avoid this divergence. We developed two different LLMGGA functionals, which improve the kinetic energy or the kinetic potential. We test these KE functionals in the context of Frozen-Density-Embedding (FDE), for a large palette of non-covalently interacting molecular systems. These functionals improve over the present state-of-the-art LLMGGA functionals for the FDE calculations.
ISSN:2079-3197
2079-3197
DOI:10.3390/computation7040065