Your search keyword '"Vydrov, Oleg"' showing total 3 results

1. Spurious fractional charge on dissociated atoms: Pervasive and resilient self-interaction error of common density functionals.

Author

Ruzsinszky, Adrienn, Perdew, John P., Csonka, Gábor I., Vydrov, Oleg A., and Scuseria, Gustavo E.

Subjects

DENSITY functionals, FUNCTIONAL analysis, QUANTUM chemistry, FUNCTIONALS, PROPERTIES of matter, PHYSICAL & theoretical chemistry

Abstract

Semilocal density functional approximations for the exchange-correlation energy can improperly dissociate a neutral molecule XY (Y≠X) to fractionally charged fragments X+q...Y-q with an energy significantly lower than X0...Y0. For example, NaCl can dissociate to Na+0.4...Cl-0.4. Generally, q is positive when the lowest-unoccupied orbital energy of atom Y0 lies below the highest-occupied orbital energy of atom X0. The first 24 open sp-shell atoms of the Periodic Table can form 276 distinct unlike pairs XY, and in the local spin density approximation 174 of these display fractional-charge dissociation. Finding these lowest-energy solutions with standard quantum chemistry codes, however, requires special care. Self-interaction-corrected (SIC) semilocal approximations are exact for one-electron systems and also reduce the spurious fractional charge q. The original SIC of Perdew and Zunger typically reduces q to 0. A scaled-down SIC with better equilibrium properties sometimes fails to reduce q all the way to 0. The desideratum of “many-electron self-interaction freedom” is introduced as a generalization of the one-electron concept. [ABSTRACT FROM AUTHOR]

Published

2006

2. Ionization potentials and electron affinities in the Perdew–Zunger self-interaction corrected density-functional theory.

Author

Vydrov, Oleg A. and Scuseria, Gustavo E.

Subjects

*PARTICLES (Nuclear physics), *PHYSICAL & theoretical chemistry, *FUNCTIONAL analysis, *FUNCTIONALS, *INTERMEDIATES (Chemistry), *SOLUTION (Chemistry)

Abstract

Using a self-consistent implementation of the Perdew–Zunger self-interaction corrected (PZ-SIC) density-functional theory, we have calculated ionization potentials (IP) and electron affinities (EA) of first- and second-row atoms and a set of small molecules. Several exchange-correlation functionals were tested. IPs and EAs were obtained by two methods: as the difference in self-consistent field (SCF) energies of neutrals and ions (ΔSCF) and as negatives of highest-occupied orbital energies. We found that, except for local spin-density approximation, PZ-SIC worsens ΔSCF IPs and EAs. On the other hand, PZ-SIC brings orbital eigenvalues into much better agreement with electron removal energies. The Perdew–Zunger SIC seems to overcorrect many-electron systems; for molecules it performs worse than for atoms. We also discuss several common approximations to PZ-SIC such as spherical averaging of orbital densities in atoms. [ABSTRACT FROM AUTHOR]

Published

2005

3. A simple method to selectively scale down the self-interaction correction.

Author

Vydrov, Oleg A. and Scuseria, Gustavo E.

Subjects

*DENSITY functionals, *FUNCTIONAL analysis, *FUNCTIONALS, *PARTICLES (Nuclear physics), *PHYSICAL & theoretical chemistry

Abstract

The method of Perdew and Zunger is commonly used to correct the self-interaction error of approximate density functionals. However, it has been shown that this orbital-based self-interaction correction (SIC) tends to overcorrect and often impairs molecular properties. We have recently proposed a method to improve the performance of the SIC by scaling it down in many-electron regions. In this communication, we present a simplification of this scheme. For every occupied orbital, we introduce a scaling factor determined by the ratio of the orbital density to the total spin-density. Thus, the magnitude of the correction is adjusted depending on how much orbital densities overlap with one another. Such a modification of the Perdew-Zunger SIC does not add any appreciable time to the computation, but significantly improves the accuracy for a number of benchmark properties. [ABSTRACT FROM AUTHOR]

Published

2006