Total-energy all-electron density functional method for bulk solids and surfaces

M. Weinert, E. Wimmer, and A. J. Freeman
Phys. Rev. B 26, 4571 – Published 15 October 1982
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Abstract

A new formalism for determining highly accurate total energies of solids within density functional theory is presented in which all necessary terms are easily obtained from the energy-band calculation. A major feature of this all-electron approach is the explicit algebraic cancellation of the nuclear Coulomb singularities in the kinetic and potential energy terms which leads to good numerical stability. As an illustration, the method is implemented in the full-potential linearized augmented-plane-wave method for thin films and applied to monolayers of Cs and graphite. The structural information (lattice parameters, force constants, etc.) for graphite are found to be in very good agreement with experiment on bulk graphite and to be rather insensitive to the quality of the basis. The calculated cohesive energy (relative to a spin-polarized local-density atom), on the other hand, is quite sensitive to the quality of the basis; a limited basis yields results in fortuitous agreement with experiment. The converged result for the cohesive energy is found to be 17% too large compared to experiment, an error which appears to arise from the neglect of correlation with near-lying excited configurations in the local-density atom and not to errors in the condensed system.

  • Received 1 June 1982

DOI:https://doi.org/10.1103/PhysRevB.26.4571

©1982 American Physical Society

Authors & Affiliations

M. Weinert, E. Wimmer*, and A. J. Freeman

  • Physics Department, Northwestern University, Evanston, Illinois 60201

  • *Permanent address: Institut für Physikalische Chemie, University of Vienna, Währingerstr. 42, A-1090 Vienna, Austria.

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Vol. 26, Iss. 8 — 15 October 1982

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