Initial-state dependence in time-dependent density functional theory

A. Görling; A. Zangwill; C. J. Umrigar; E. J. Heller; E. K. U. Gross; E. Runge; E. V. Ludenã; G. D. Mahan; J. Chen; K. Yabana; K. Yabana; Kieron Burke; M. Lein; Neepa T. Maitra; P. Hessler; P. Hessler; P. Hohenberg; Q. Zhao; Q. Zhao; R. M. Dreizler; R. van Leeuwen; R. van Leeuwen; S. J. A. van Gisbergen; W. Kohn; W. Kohn; X.-M. Tong; Y. Wang; Á. Nagy

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Initial-state dependence in time-dependent density functional theory

Authors: A. Görling
A. Zangwill
C. J. Umrigar
E. J. Heller
E. K. U. Gross
E. Runge
E. V. Ludenã
G. D. Mahan
J. Chen
K. Yabana
K. Yabana
Kieron Burke
M. Lein
Neepa T. Maitra
P. Hessler
P. Hessler
P. Hohenberg
Q. Zhao
Q. Zhao
R. M. Dreizler
R. van Leeuwen
R. van Leeuwen
S. J. A. van Gisbergen
W. Kohn
W. Kohn
X.-M. Tong
Y. Wang
Á. Nagy
Publication date: 26 October 2000
Publisher: 'American Physical Society (APS)'
Doi

Abstract

Time-dependent density functionals in principle depend on the initial state of the system, but this is ignored in functional approximations presently in use. For one electron it is shown there is no initial-state dependence: for any density, only one initial state produces a well-behaved potential. For two non-interacting electrons with the same spin in one-dimension, an initial potential that makes an alternative initial wavefunction evolve with the same density and current as a ground state is calculated. This potential is well-behaved and can be made arbitrarily different from the original potential

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info:doi/10.1103%2Fphysreva.63...

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