From Fractional Chern Insulators to a Fractional Quantum Spin Hall
  Effect

A.L. Efros; B.A. Bernevig; B.A. Bernevig; B.I. Halperin; C.L. Kane; D.C. Tsui; D.J. Thouless; E. Tang; F.D.M. Haldane; F.D.M. Haldane; G.Y. Cho; J.-N. Fuchs; K. Sun; M. König; M. Levin; M. O. Goerbig; M.Z. Hasan; N. Regnault; R.B. Laughlin; S.M. Girvin; T. Neupert; T. Neupert; X. Hu; X.-L. Qi; X.-L. Qi; Y.-F. Wang; Z.F. Ezawa

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From Fractional Chern Insulators to a Fractional Quantum Spin Hall Effect

Authors: A.L. Efros
B.A. Bernevig
B.A. Bernevig
B.I. Halperin
C.L. Kane
D.C. Tsui
D.J. Thouless
E. Tang
F.D.M. Haldane
F.D.M. Haldane
G.Y. Cho
J.-N. Fuchs
K. Sun
M. König
M. Levin
M. O. Goerbig
M.Z. Hasan
N. Regnault
R.B. Laughlin
S.M. Girvin
T. Neupert
T. Neupert
X. Hu
X.-L. Qi
X.-L. Qi
Y.-F. Wang
Z.F. Ezawa
Publication date: 11 January 2012
Publisher: 'Springer Science and Business Media LLC'
Doi

Abstract

We investigate the algebraic structure of flat energy bands a partial filling of which may give rise to a fractional quantum anomalous Hall effect (or a fractional Chern insulator) and a fractional quantum spin Hall effect. Both effects arise in the case of a sufficiently flat energy band as well as a roughly flat and homogeneous Berry curvature, such that the global Chern number, which is a topological invariant, may be associated with a local non-commutative geometry. This geometry is similar to the more familiar situation of the fractional quantum Hall effect in two-dimensional electron systems in a strong magnetic field.Comment: 8 pages, 3 figure; published version with labels in Figs. 2 and 3 correcte

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