Correction to kinetic energy density functional using exactly solvable model

Alexey Sergeev; Raka Jovanovic; Sabre Kais; Fahhad H. Alharbi

doi:10.1088/0031-8949/90/12/125401

Correction to kinetic energy density functional using exactly solvable model

Alexey Sergeev
, Raka Jovanovic
, Sabre Kais
, Fahhad H. Alharbi

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Herein we present an accurate correction to the Thomas-Fermi (TF) approximation for the non-interacting kinetic energy. The correction is derived from an entirely solvable model and not through the application of the truncated gradient expansion. The used approach exploits the comparable nature of the difference between the TF approximation and the non-interacting kinetic energy and its analogue within a model of non-interacting electrons that resembles the actually studied problem. For the atom, the used model is a system of N non-interacting electrons moving independently in the Coulomb field of the nuclear charge. It is shown numerically that this correction enhances the accuracy of the TF approximation for atoms by an order of magnitude.

Original language	English
Article number	125401
Journal	Physica Scripta
Volume	90
Issue number	12
DOIs	https://doi.org/10.1088/0031-8949/90/12/125401
State	Published - 6 Nov 2015
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2015 The Royal Swedish Academy of Sciences.

Keywords

kinetic energy density functionals
orbital-free density functional theory

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics
Mathematical Physics
Condensed Matter Physics

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10.1088/0031-8949/90/12/125401

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title = "Correction to kinetic energy density functional using exactly solvable model",

abstract = "Herein we present an accurate correction to the Thomas-Fermi (TF) approximation for the non-interacting kinetic energy. The correction is derived from an entirely solvable model and not through the application of the truncated gradient expansion. The used approach exploits the comparable nature of the difference between the TF approximation and the non-interacting kinetic energy and its analogue within a model of non-interacting electrons that resembles the actually studied problem. For the atom, the used model is a system of N non-interacting electrons moving independently in the Coulomb field of the nuclear charge. It is shown numerically that this correction enhances the accuracy of the TF approximation for atoms by an order of magnitude.",

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AU - Sergeev, Alexey

AU - Jovanovic, Raka

AU - Kais, Sabre

AU - Alharbi, Fahhad H.

PY - 2015/11/6

Y1 - 2015/11/6

N2 - Herein we present an accurate correction to the Thomas-Fermi (TF) approximation for the non-interacting kinetic energy. The correction is derived from an entirely solvable model and not through the application of the truncated gradient expansion. The used approach exploits the comparable nature of the difference between the TF approximation and the non-interacting kinetic energy and its analogue within a model of non-interacting electrons that resembles the actually studied problem. For the atom, the used model is a system of N non-interacting electrons moving independently in the Coulomb field of the nuclear charge. It is shown numerically that this correction enhances the accuracy of the TF approximation for atoms by an order of magnitude.

AB - Herein we present an accurate correction to the Thomas-Fermi (TF) approximation for the non-interacting kinetic energy. The correction is derived from an entirely solvable model and not through the application of the truncated gradient expansion. The used approach exploits the comparable nature of the difference between the TF approximation and the non-interacting kinetic energy and its analogue within a model of non-interacting electrons that resembles the actually studied problem. For the atom, the used model is a system of N non-interacting electrons moving independently in the Coulomb field of the nuclear charge. It is shown numerically that this correction enhances the accuracy of the TF approximation for atoms by an order of magnitude.

KW - kinetic energy density functionals

KW - orbital-free density functional theory

UR - https://www.scopus.com/pages/publications/84948686527

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DO - 10.1088/0031-8949/90/12/125401

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SN - 0031-8949

VL - 90

JO - Physica Scripta

JF - Physica Scripta

IS - 12

M1 - 125401

ER -

Correction to kinetic energy density functional using exactly solvable model

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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