Exchange-only optimized-effective-potential calculations using Slater-type basis functions: Atoms and diatomic molecules

J. J. Fernandez; J. E. Alvarellos; P. Garcia-Gonzalez; M. Filatov

doi:10.1103/PhysRevA.85.012512

Exchange-only optimized-effective-potential calculations using Slater-type basis functions: Atoms and diatomic molecules

J. J. Fernandez^*, J. E. Alvarellos, P. Garcia-Gonzalez, M. Filatov

^*Corresponding author for this work

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Abstract

The exchange-only optimized-effective-potential method is implemented with the use of Slater-type basis functions, seeking an alternative to the standard methods of solution with some computational advantages. This procedure has been tested in a small group of closed-shell atoms and diatomic molecules, for which numerical solutions are available. The results obtained with this implementation have been compared to the exact numerical solutions and to the results obtained when the optimized effective equations are solved using the Gaussian-type basis sets. This Slater-type basis approach leads to a more compact expansion space for representing the potential of the optimized-effective-potential method and to considerable computational savings when compared to both the numerical solution and the more traditional one in terms of the Gaussian basis sets.

Original language	English
Article number	012512
Pages (from-to)	012512-1-012512-7
Number of pages	7
Journal	Physical Review A
Volume	85
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevA.85.012512
Publication status	Published - 17-Jan-2012

Keywords

HARTREE-FOCK ENERGIES
DENSITY FUNCTIONALS
APPROXIMATIONS

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title = "Exchange-only optimized-effective-potential calculations using Slater-type basis functions: Atoms and diatomic molecules",

abstract = "The exchange-only optimized-effective-potential method is implemented with the use of Slater-type basis functions, seeking an alternative to the standard methods of solution with some computational advantages. This procedure has been tested in a small group of closed-shell atoms and diatomic molecules, for which numerical solutions are available. The results obtained with this implementation have been compared to the exact numerical solutions and to the results obtained when the optimized effective equations are solved using the Gaussian-type basis sets. This Slater-type basis approach leads to a more compact expansion space for representing the potential of the optimized-effective-potential method and to considerable computational savings when compared to both the numerical solution and the more traditional one in terms of the Gaussian basis sets.",

keywords = "HARTREE-FOCK ENERGIES, DENSITY FUNCTIONALS, APPROXIMATIONS",

author = "Fernandez, {J. J.} and Alvarellos, {J. E.} and P. Garcia-Gonzalez and M. Filatov",

year = "2012",

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doi = "10.1103/PhysRevA.85.012512",

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AU - Garcia-Gonzalez, P.

AU - Filatov, M.

PY - 2012/1/17

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N2 - The exchange-only optimized-effective-potential method is implemented with the use of Slater-type basis functions, seeking an alternative to the standard methods of solution with some computational advantages. This procedure has been tested in a small group of closed-shell atoms and diatomic molecules, for which numerical solutions are available. The results obtained with this implementation have been compared to the exact numerical solutions and to the results obtained when the optimized effective equations are solved using the Gaussian-type basis sets. This Slater-type basis approach leads to a more compact expansion space for representing the potential of the optimized-effective-potential method and to considerable computational savings when compared to both the numerical solution and the more traditional one in terms of the Gaussian basis sets.

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KW - HARTREE-FOCK ENERGIES

KW - DENSITY FUNCTIONALS

KW - APPROXIMATIONS

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Exchange-only optimized-effective-potential calculations using Slater-type basis functions: Atoms and diatomic molecules

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