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Orbital-Free Density Functional Theory: Linear Scaling Methods for Kinetic Potentials, and Applications to Solid Al and S

Other Condensed Matter 2015-05-13 v1 Materials Science
Authors: Jeng-Da Chai , Vincent L. Ligneres , Gregory Ho , Emily A. Carter , John D. Weeks
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Abstract

In orbital-free density functional theory the kinetic potential (KP), the functional derivative of the kinetic energy density functional, appears in the Euler equation for the electron density and may be more amenable to simple approximations. We study properties of two solid-state systems, Al and Si, using two nonlocal KPs that gave good results for atoms. Very accurate results are found for Al, but results for Si are much less satisfactory, illustrating the general need for a better treatment of extended covalent systems. A different integration pathway in the KP formalism may prove useful in attacking this fundamental problem.

Keywords

density functional theory quantum mechanics potentials free energy

Cite

@article{arxiv.0903.3450,
  title  = {Orbital-Free Density Functional Theory: Linear Scaling Methods for Kinetic Potentials, and Applications to Solid Al and S},
  author = {Jeng-Da Chai and Vincent L. Ligneres and Gregory Ho and Emily A. Carter and John D. Weeks},
  journal= {arXiv preprint arXiv:0903.3450},
  year   = {2015}
}

Comments

Submitted to Chemical Physics Letters

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