AI Article Synopsis

  • Electron-propagator methods have improved the accuracy and efficiency of calculating valence electron binding energies for closed-shell molecules, achieving mean errors as low as 0.1 eV.
  • The study explores how diagonal self-energy approximations can be adapted from canonical Hartree-Fock to unrestricted Hartree-Fock theory, using experimental and correlated calculation data as benchmarks.
  • Key recommendations for accurate calculations include ensuring Koopmans's identity holds in UHF, using closed-shell reference states for ionization energy, and favoring electron detachment energy calculations over attachment ones, with small error increases when following this advice.

Article Abstract

For closed-shell molecules, valence electron binding energies may be calculated accurately and efficiently with electron-propagator methods that have surpassed their predecessors. Advantageous combinations of accuracy and efficiency range from cubically scaling methods with mean errors of 0.2 eV to quintically scaling methods with mean errors of 0.1 eV or less. The diagonal self-energy approximation in the canonical Hartree-Fock basis is responsible for the enhanced efficiency of several methods. This work examines the predictive capabilities of diagonal self-energy approximations when they are generalized to the canonical spin-orbital basis of unrestricted Hartree-Fock (UHF) theory. Experimental data on atomic electron binding energies and high-level, correlated calculations in a fixed basis for a set of open-shell molecules constitute standards of comparison. A review of the underlying theory and analysis of numerical errors lead to several recommendations for the calculation of electron binding energies: (1) In calculations that employ the diagonal self-energy approximation, Koopmans's identity for UHF must be qualitatively correct. (2) Closed-shell reference states are preferable to open-shell reference states in calculations of molecular ionization energies and electron affinities. (3) For molecular electron binding energies between doublets and triplets, calculations of electron detachment energies are more accurate and efficient than calculations of electron attachment energies. When these recommendations are followed, mean absolute errors increase by approximately 0.05 eV with respect to their counterparts obtained with closed-shell reference orbitals.

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http://dx.doi.org/10.1021/acs.jpca.4c04318DOI Listing

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