Orbital Energies and Nuclear Forces in DFT: Interpretation and Validation

The bonding and antibonding character of individual molecular orbitals has been previously shown to be related to their orbital energy derivatives with respect to nuclear coordinates, known as dynamical orbital forces. Albeit usually derived from Koopmans' theorem, in this work we show a more general derivation from conceptual DFT, which justifies application in a broader context. The consistency of the approach is validated numerically for valence orbitals in Kohn-Sham DFT. Then, we illustrate its usefulness by showcasing applications in aromatic and antiaromatic systems and in excited state chemistry. Overall, dynamical orbital forces can be used to interpret the results of routine ab initio calculations, be it wavefunction or density based, in terms of forces and occupations.

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Sciences du Vivant [q-bio]

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Laplaza et al. - Orbital energies and nuclear forces in DFT Interp.pdf (5.7 Mo)

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https://hal.sorbonne-universite.fr/hal-03155849

Soumis le : mardi 2 mars 2021-10:11:09

Dernière modification le : jeudi 31 octobre 2024-09:06:03

Archivage à long terme le : lundi 31 mai 2021-18:24:40

Dates et versions

hal-03155849 , version 1 (02-03-2021)

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Autorisation HAL

Identifiants

HAL Id : hal-03155849 , version 1
DOI : 10.1002/jcc.26459
PUBMED : 33301201

Citer

Rubén Laplaza, Carlos Cárdenas, Patrick Chaquin, Julia Contreras-Garcia, Paul W Ayers. Orbital Energies and Nuclear Forces in DFT: Interpretation and Validation. Journal of Computational Chemistry, 2021, 42 (5), pp.334-343. ⟨10.1002/jcc.26459⟩. ⟨hal-03155849⟩