N-representability of the target density in Frozen-Density Embedding Theory based methods: Numerical significance and its relation to electronic polarization

The accuracy of any observable derived from multi-scale simulations based on Frozen-Density Embedding Theory (FDET) is affected by two inseparable factors: (i) the approximation for the ExcTnad[ρA,ρB] component of the FDET energy functional and (ii) the choice of the density ρB(r) for which the FDET...

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Bibliographic Details
Published in:The Journal of chemical physics 2022-08, Vol.157 (6), p.064108-064108
Main Authors: Ricardi, Niccolò, González-Espinoza, Cristina E., Wesołowski, Tomasz Adam
Format: Article
Language:English
Subjects:
Density
Eigenvalues
Embedding
Mathematical analysis
Numerical methods
Polarization
Wave functions
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Summary:The accuracy of any observable derived from multi-scale simulations based on Frozen-Density Embedding Theory (FDET) is affected by two inseparable factors: (i) the approximation for the ExcTnad[ρA,ρB] component of the FDET energy functional and (ii) the choice of the density ρB(r) for which the FDET eigenvalue equation for the embedded wavefunction is solved. A procedure is proposed to estimate the relative significance of these two factors. Numerical examples are given for four weakly bound intermolecular complexes. It is shown that the violation of the non-negativity condition is the principal source of error in the FDET energy if ρB is the density of the isolated environment, i.e., it is generated without taking into account the interactions with the embedded species. Reduction of both the magnitude of the violation of the non-negativity condition and the error in the FDET energy can be pragmatically achieved by means of the explicit treatment of the electronic polarization of the environment.
ISSN:0021-9606
1089-7690
DOI:10.1063/5.0095566