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An improved Slater’s transition state approximation

Kimihiko Hirao, Takahito Nakajima, Bun Chan

2021The Journal of Chemical Physics25 citationsDOI

Abstract

We have extended Slater’s transition state concept for the approximation of the difference in total energies of the initial and final states by three orbital energies of initial, final, and half-way Slater’s transition states of the system. Numerical validation was performed with the ionization energies for H2O, CO, and pyrrole by calculation using Hartree–Fock (HF) and Kohn–Sham (KS) theories with the B3LYP and LCgau-core-BOP functionals. The present extended method reproduces full ΔSCF very accurately for all occupied orbitals obtained with HF and for valence orbitals obtained with KS. KS core orbitals have some errors due to the self-interaction errors, but the present method significantly improves the core electron binding energies. In its current form, the newly derived theory may not yet be practically useful, but it is simple and conceptually useful for gaining improved understanding of SCF-type orbital theories.

Topics & Concepts

Atomic orbitalSlater determinantValence (chemistry)Core electronSlater-type orbitalAtomic physicsIonization energyMolecular orbitalSTO-nG basis setsPhysicsMolecular orbital theoryIonizationElectronQuantum mechanicsChemistryMoleculeIonAdvanced Chemical Physics StudiesSpectroscopy and Quantum Chemical StudiesFree Radicals and Antioxidants
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