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Exchange-density functionals

The first point to remark is that methods that are to be incorporated in MD, and thus require frequent updates, must be both accurate and efficient. It is likely that only semi-empirical and density functional (DFT) methods are suitable for embedding. Semi-empirical methods include MO (molecular orbital) [90] and valence-bond methods [89], both being dependent on suitable parametrizations that can be validated by high-level ab initio QM. The quality of DFT has improved recently by refinements of the exchange density functional to such an extent that its accuracy rivals that of the best ab initio calculations [91]. DFT is quite suitable for embedding into a classical environment [92]. Therefore DFT is expected to have the best potential for future incorporation in embedded QM/MD. [Pg.15]

Mori-Sanchez P, Wu Q, Yang WT (2003) Accurate polymer polarizabilities with exact exchange density-functional theory, J Chem Phys, 119 11001-11004... [Pg.194]

Xu X, Goddard III WA (2004a) Assessment of Handy-Cohen optimized exchange density functional (OPTX), J Phys Chem A, 108 8495-8506... [Pg.195]

Keywords ZSM-5 zeolite Proton exchange Density functional theory Activation barrier... [Pg.31]

From Exchange Correlation to Exchange Density Functionals of Bose-Einstein Condensate... [Pg.7]

Becke A D 1995 Exchange-correlation approximations in density-functional theory Modern Eiectronic Structure Theory vol 2, ed D R Yarkony (Singapore World Scientific) pp 1022-46... [Pg.2198]

The total electron density is just the sum of the densities for the two types of electron. The exchange-correlation functional is typically different for the two cases, leading to a set of spin-polarised Kohn-Sham equations ... [Pg.149]

The application of density functional theory to isolated, organic molecules is still in relative infancy compared with the use of Hartree-Fock methods. There continues to be a steady stream of publications designed to assess the performance of the various approaches to DFT. As we have discussed there is a plethora of ways in which density functional theory can be implemented with different functional forms for the basis set (Gaussians, Slater type orbitals, or numerical), different expressions for the exchange and correlation contributions within the local density approximation, different expressions for the gradient corrections and different ways to solve the Kohn-Sham equations to achieve self-consistency. This contrasts with the situation for Hartree-Fock calculations, wlrich mostly use one of a series of tried and tested Gaussian basis sets and where there is a substantial body of literature to help choose the most appropriate method for incorporating post-Hartree-Fock methods, should that be desired. [Pg.157]

Gunnarsson O and B I Lundqvist 1976. Exchange and Correlation in Atoms, Molecules, and Solids by the Spin-density-functional Formalism. Physical Review B13.-4274-4298. [Pg.181]

Density functionals can be broken down into several classes. The simplest is called the Xa method. This type of calculation includes electron exchange but not correlation. It was introduced by J. C. Slater, who in attempting to make an approximation to Hartree-Fock unwittingly discovered the simplest form of DFT. The Xa method is similar in accuracy to HF and sometimes better. [Pg.43]

A. D. Becke, Density-functional thermochemistry. III. The role of exact exchange, /. Chem. Phys., 98, 5648 (1993). [Pg.283]

There is no systematic way in which the exchange correlation functional Vxc[F] can be systematically improved in standard HF-LCAO theory, we can improve on the model by increasing the accuracy of the basis set, doing configuration interaction or MPn calculations. What we have to do in density functional theory is to start from a model for which there is an exact solution, and this model is the uniform electron gas. Parr and Yang (1989) write... [Pg.225]

Calculations were done with a full-potential version of the LMTO method with nonoverlapping spheres. The contributions from the interstitial region were accounted for by expanding the products of Hankel functions in a series of atom-ce- -ered Hankels of three different kinetic energies. The corrected tetrahedron method was used for Brillouin zone integration. Electronic exchange and correlation contributions to the total energy were obtained from the local-density functional calculated by Ceperley and Alder " and parametrized by Vosko, Wilk, and Nusair. ... [Pg.192]

The local density approximation is highly successful and has been used in density functional calculations for many years now. There were several difficulties in implementing better approximations, but in 1991 Perdew et al. successfully parametrised a potential known as the generalised gradient approximation (GGA) which expresses the exchange and correlation potential as a function of both the local density and its gradient ... [Pg.21]


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See also in sourсe #XX -- [ Pg.7 ]




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Density Functionals of Exchange Energy

Density Functionals of Exchange-Correlation Energy

Density exchange-correlation functionals

Density functional differential exchange

Density functional theory Hartree-Fock exchange

Density functional theory Hartree-Fock-Slater exchange

Density functional theory exact exchange potential

Density functional theory exchange-correlation

Density functional theory exchange-correlation energy

Density functional theory exchange-correlation functionals

Density functional theory exchange-correlation holes

Density functionals Perdew-Wang-91 exchange-correlation

Exact exchange energy density functional

Exact exchange energy density functional from Fock operator

Exchange correlation functionals, local density approximations

Exchange density

Exchange function

Exchange functionals

Exchange-correlation energy, density functionals

Exchange-correlation functional local density approximation

Exchange-correlation functional, in density

Exchange-energy density functional, theory

Exchange—correlation density functional

Local spin-density approximations hybrid exchange functionals

Local-scaling density functional theory exchange energy

OPTimized exchange density function

The Pair Density. Orbital-dependent Exchange-correlation Functionals

Time-dependent density functional theory exact exchange

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