Exchange-correlation energy functional constructed from orbital-dependent coupling-constant-averaged pair correlation functions
Abstract
An exchange-correlation energy functional and the resultant exchange-correlation potential in density-functional theory are proposed using orbital-dependent coupling-constant-averaged pair correlation functions, for electronic structure calculations of atoms, molecules, and solids. These orbital-dependent fulfill the symmetric property, the Pauli principle and the sum rules. In the limit of uniform density are reduced to the very accurate analogues of the electron liquid that are obtained from an interpolation between long- and short-range correlations involving the exchange corrections. The major contribution of is given in the form of the Coulomb interaction with the exchange-Coulomb hole around an electron. The present theory not only guarantees local charge neutrality, but also reproduces the exact asymptotic form of the exchange potential, for finite systems. The present method of dealing with correlations, if properly applied to finite systems, can give even the asymptotic form of the correlation potential of order as well as the van der Waals potential of order for large r.
Keywords
Cite
@article{arxiv.cond-mat/0306429,
title = {Exchange-correlation energy functional constructed from orbital-dependent coupling-constant-averaged pair correlation functions},
author = {Hiroshi Yasuhara and Masahiko Higuchi and Yoshiyuki Kawazoe},
journal= {arXiv preprint arXiv:cond-mat/0306429},
year = {2007}
}
Comments
16 pages, no figure