Timesaving Double-Grid Method for Real-Space Electronic-Structure
  Calculations

A. D. Becke; A. D. Becke; A. P. Seitsonen; D. R. Hamann; E. L. Briggs; E. L. Briggs; E. Tsuchida; E. Tsuchida; F. Gygi; G. B. Bachelet; I. Štich; J. Bernholc; J. P. Perdew; J. R. Chelikowsky; J. R. Chelikowsky; J. R. Chelikowsky; K. P. Huber; Kikuji Hirose; L. Kleinman; N. Troullier; S. R. White; T. Hoshi; T. Hoshi; Tomoya Ono; X. Jing

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Timesaving Double-Grid Method for Real-Space Electronic-Structure Calculations

Authors: A. D. Becke
A. D. Becke
A. P. Seitsonen
D. R. Hamann
E. L. Briggs
E. L. Briggs
E. Tsuchida
E. Tsuchida
F. Gygi
G. B. Bachelet
I. Štich
J. Bernholc
J. P. Perdew
J. R. Chelikowsky
J. R. Chelikowsky
J. R. Chelikowsky
K. P. Huber
Kikuji Hirose
L. Kleinman
N. Troullier
S. R. White
T. Hoshi
T. Hoshi
Tomoya Ono
X. Jing
Publication date: 10 June 1999
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We present a simple and efficient technique in ab initio electronic-structure calculation utilizing real-space double-grid with a high density of grid points in the vicinity of nuclei. This technique promises to greatly reduce the overhead for performing the integrals that involves non-local parts of pseudopotentials, with keeping a high degree of accuracy. Our procedure gives rise to no Pulay forces, unlike other real-space methods using adaptive coordinates. Moreover, we demonstrate the potential power of the method by calculating several properties of atoms and molecules.Comment: 4 pages, 5 figure

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