Hartree-Fock Theory of Hole Stripe States

A. H. MacDonald; A.A. Koulakov; A.A. Koulakov; A.H. MacDonald; A.H. MacDonald; E. Fradkin; E.H. Rezayi; H.A. Fertig; J.M. Luttinger; M. Shayegan; M.P. Lilly; M.P. Lilly; R. Moessner; R. Nötzel; R.R. Du; S.-R. Eric Yang; T. Jungwirth; T. Stanescu; Tae-Suk Kim; W. Pan

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Hartree-Fock Theory of Hole Stripe States

Authors: A. H. MacDonald
A.A. Koulakov
A.A. Koulakov
A.H. MacDonald
A.H. MacDonald
E. Fradkin
E.H. Rezayi
H.A. Fertig
J.M. Luttinger
M. Shayegan
M.P. Lilly
M.P. Lilly
R. Moessner
R. Nötzel
R.R. Du
S.-R. Eric Yang
T. Jungwirth
T. Stanescu
Tae-Suk Kim
W. Pan
Publication date: 30 January 2001
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We report on Hartree-Fock theory results for stripe states of two-dimensional hole systems in quantum wells grown on GaAs (311)A substrates. We find that the stripe orientation energy has a rich dependence on hole density, and on in-plane field magnitude and orientation. Unlike the electron case, the orientation energy is non-zero for zero in-plane field, and the ground state orientation can be either parallel or perpendicular to a finite in-plane field. We predict an orientation reversal transition in in-plane fields applied along the

\lbrack\bar{2}33\rbrack

direction.Comment: 5 pages including 4 figure

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