We extend the Kohn-Sham equations with constrained density (KSCED) to the use of orbital dependent functionals, namely the localized Hartree-Fock (LHF) functional, which is free from the Coulomb self-interaction error. We show that the LHF-KSCED approach yields an accurate description of the embedded density of weakly-bound systems. This performance is rationalized in terms of the reduced importance of the nonadditive kinetic embedding contributions in LHF-KSCED calculations. As a sample application of the LHF-KSCED method we study the ionization potential of solvated thymine.
Frozen Density Embedding Calculations with the Orbital-Dependent Localized Hartree-Fock Kohn-Sham Potential
E Fabiano;F Della Sala
2011
Abstract
We extend the Kohn-Sham equations with constrained density (KSCED) to the use of orbital dependent functionals, namely the localized Hartree-Fock (LHF) functional, which is free from the Coulomb self-interaction error. We show that the LHF-KSCED approach yields an accurate description of the embedded density of weakly-bound systems. This performance is rationalized in terms of the reduced importance of the nonadditive kinetic embedding contributions in LHF-KSCED calculations. As a sample application of the LHF-KSCED method we study the ionization potential of solvated thymine.File in questo prodotto:
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