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Exact and Model Exchange-Correlation Potentials for Open-Shell Systems

Bikash Kanungo, Jeffrey Hatch, Paul M. Zimmerman, Vikram Gavini

2023The Journal of Physical Chemistry Letters12 citationsDOIOpen Access PDF

Abstract

The conventional approaches to the inverse density functional theory problem typically assume nondegeneracy of the Kohn–Sham (KS) eigenvalues, greatly hindering their use in open-shell systems. We present a generalization of the inverse density functional theory problem that can seamlessly admit degenerate KS eigenvalues. Additionally, we allow for fractional occupancy of the Kohn–Sham orbitals to also handle noninteracting ensemble-v-representable densities, as opposed to just noninteracting pure-v-representable densities. We present the exact exchange-correlation (XC) potentials for six open-shell systems─four atoms (Li, C, N, and O) and two molecules (CN and CH 2 )─using accurate ground-state densities from configuration interaction calculations. We compare these exact XC potentials with model XC potentials obtained using nonlocal (B3LYP, SCAN0) and local/semilocal (SCAN, PBE, PW92) XC functionals. Although the relative errors in the densities obtained from these DFT functionals are of O (10 –3 to 10 –2 ), the relative errors in the model XC potentials remain substantially large─ O (10 –1 to 10 0 ).

Topics & Concepts

Open shellDegenerate energy levelsEigenvalues and eigenvectorsGeneralizationDensity functional theoryKohn–Sham equationsAtomic orbitalInversePhysicsShell (structure)Quantum mechanicsStatistical physicsMolecular physicsComputational chemistryMathematicsMathematical analysisChemistryMaterials scienceGeometryElectronComposite materialAdvanced NMR Techniques and ApplicationsSolid-state spectroscopy and crystallographyAdvanced Chemical Physics Studies
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