Exchange-correlation effects in interatomic energies for pure density functionals and their application to the molecular energy prediction

Exchange-correlation effects in interatomic energies for pure density functionals and their application to the molecular energy prediction

In this proof-of-concept paper, we show how exchange-correlation effects can be simply recovered for interatomic energies within the interacting quantum atoms decomposition when local, gradient generalized, or meta-gradient generalized approximations are used in density functional theory (DFT) calcu...

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Veröffentlicht in:Journal of computational chemistry 2024-10, Vol.45 (27), p.2270-2283
Hauptverfasser: Tognetti, Vincent, Joubert, Laurent
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Sprache:eng
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Decomposition
Density functional theory
Inhomogeneity
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Joubert, Laurent
description In this proof-of-concept paper, we show how exchange-correlation effects can be simply recovered for interatomic energies within the interacting quantum atoms decomposition when local, gradient generalized, or meta-gradient generalized approximations are used in density functional theory (DFT) calculations. We also demonstrate how inhomogeneity and non-local effects can be introduced even from a pure local scheme, without resorting to any orbital information. Finally, we provide numerical evidence on a database of selected energetic molecules that this decomposition scheme can be efficiently used to build accurate models for the prediction of molecular energies from an initial "cheap" DFT calculation.
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subjects Decomposition
Density functional theory
Inhomogeneity
title Exchange-correlation effects in interatomic energies for pure density functionals and their application to the molecular energy prediction
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