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Molecular Physics
An International Journal at the Interface Between Chemistry and Physics
Volume 117, 2019 - Issue 9-12: Dieter Cremer Memorial Issue
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Dieter Cremer Memorial

Density functionals for nondynamical correlation constructed from an upper bound to the exact exchange energy density

Benjamin G. JaneskoDepartment of Chemistry and Biochemistry, Texas Christian University, Fort Worth, TX, USACorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-2572-5273View further author information
ORCID Icon,
Giovanni ScalmaniGaussian, Inc, Wallingford, CT, USAView further author information
&
Michael J. FrischGaussian, Inc, Wallingford, CT, USAView further author information
Pages 1226-1241 | Received 14 Aug 2018, Accepted 25 Sep 2018, Published online: 19 Oct 2018
 
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ABSTRACT

Hyper-generalised-gradient approximations (hGGAs) for the exact exchange-correlation functional are increasingly popular in density functional theory. HGGAs model nondynamical correlation using a flexible local combination of exact (Hartree–Fock, HF) exchange and approximate exchange. We present a simplified ‘Rung 3.5’ upper bound to the HF exchange energy density, the essential ingredient of hGGAs. We also present a nonempirical generalised gradient approximation for this upper bound. Both upper bounds go to zero in the high-density and density tail limits, facilitating the construction of hGGAs that recover HF exchange in these limits. The ‘Rung 3.5’ construction enables facile evaluation of analytic derivatives and calculations in periodic boundary conditions. Extensive numerical tests show that the upper bounds capture the critical difference between HF and approximate exchange, showing these ingredients' promise for building simple hGGAs. The tests also indicate a need for more sophisticated semi-local upper bounds.

GRAPHICAL ABSTRACT

Acknowledgments

The authors thank the TCU High Performance Computing Center for providing HPC resources, and acknowledge Prof. Dieter Cremer for his pioneering theoretical work.

Disclosure statement

No potential conflict of interest was reported by the authors.

ORCID

Benjamin G. Janesko  http://orcid.org/0000-0002-2572-5273

Additional information

Funding

This work was supported by the Division of Materials Research (NSF) [grant DMR-1505343].

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