Hybrid functionals based on a screened Coulomb potential

Abstract

Hybrid density functionals are very successful in describing a wide range of molecular properties accurately. In large molecules and solids, however, calculating the exact (Hartree–Fock) exchange is computationally expensive, especially for systems with metallic characteristics. In the present work, we develop a new hybrid density functional based on a screened Coulomb potential for the exchange interaction which circumvents this bottleneck. The results obtained for structural and thermodynamic properties of molecules are comparable in quality to the most widely used hybrid functionals. In addition, we present results of periodic boundary condition calculations for both semiconducting and metallic single wall carbon nanotubes. Using a screened Coulomb potential for Hartree–Fock exchange enables fast and accurate hybrid calculations, even of usually difficult metallic systems. The high accuracy of the new screened Coulomb potential hybrid, combined with its computational advantages, makes it widely applicable to large molecules and periodic systems.

Keywords

CoulombHybrid functionalPeriodic boundary conditionsDensity functional theoryHybrid systemHartreeBottleneckMoleculeHartree–Fock methodRange (aeronautics)Work (physics)Statistical physicsPhysicsMaterials scienceBoundary value problemQuantum mechanicsComputer scienceElectron

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Publication Info

Year: 2003
Type: article
Volume: 118
Issue: 18
Pages: 8207-8215
Citations: 18078
Access: Closed

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APA Style

                            
                                    Jochen Heyd, 
                                
                                    Gustavo E. Scuseria, 
                                
                                    Matthias Ernzerhof
                                
                            (2003). 
                            Hybrid functionals based on a screened Coulomb potential. 
                            The Journal of Chemical Physics
                            , 118
                            (18)
                            , 8207-8215.
                            https://doi.org/10.1063/1.1564060

Identifiers

DOI: 10.1063/1.1564060