AI Article Synopsis
- The text discusses the relationship between vertical ionization energies from bound electronic systems in their ground state and Kohn-Sham orbital energies in DFT, confirming that this relationship holds true for the lowest ionization energy.
- It highlights recent comparisons of experimental photoemission thresholds in various copper oxide (CuO) molecules against predicted orbital energies using different DFT methods, revealing significant discrepancies.
- The study expands the analysis to include various DFT approximations, noting that while some methods show promising accuracy, none successfully match the experimental data for the copper oxide anions in question.
Article Abstract
Are the vertical ionization energies from a bound electronic system, initially in its ground state, equal to minus the corresponding exact Kohn-Sham orbital energies of density functional theory (DFT)? This is known to be true for the first or lowest vertical ionization energy. We show that the correction from time-dependent DFT arises from the continuum and need not vanish. Recent work compared the experimental photoemission thresholds of the molecules CuO, CuO, CuO, and CuO with minus the corresponding orbital energies from a generalized gradient approximation (GGA) and its global and range-separated hybrids with exact exchange, finding striking differences which were attributed to self-interaction error, strong correlation, or both. Here, we extend that work to include the local spin density approximation (LSDA), its Perdew-Zunger self-interaction correction with Fermi-Löwdin localized orbitals (LSDA-SIC), a quasi-self-consistent locally scaled-down version of LSDA-SIC (QLSIC), and the Quantum Theory Project QTP02 range-separated hybrid functional, all but LSDA implemented in a generalized Kohn-Sham approach. QTP02 impressively yields a near equality for many sp-bonded molecules. However, for the copper oxide anions studied here, none of the tested methods reproduces the experimental photoemission thresholds.
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