Edge and Bulk of the Fractional Quantum Hall Liquids

A. Furusaki; A.H. MacDonald; A.H. MacDonald; B. Blok; B. Blok; C.L. Kane; C.L. Kane; D.H. Lee; D.J. Thouless; F.D.M. Haldane; F.D.M. Haldane; H.Z. Zheng; J. Fröhlich; J.K. Jain; K. Moon; M. Buttiker; Mahito Kohmoto; N. Nagaosa; Naoto Nagaosa; S. Kawaji; S.C. Zhang; X.G. Wen; X.G. Wen; X.G. Wen

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Edge and Bulk of the Fractional Quantum Hall Liquids

Authors: A. Furusaki
A.H. MacDonald
A.H. MacDonald
B. Blok
B. Blok
C.L. Kane
C.L. Kane
D.H. Lee
D.J. Thouless
F.D.M. Haldane
F.D.M. Haldane
H.Z. Zheng
J. Fröhlich
J.K. Jain
K. Moon
M. Buttiker
Mahito Kohmoto
N. Nagaosa
Naoto Nagaosa
S. Kawaji
S.C. Zhang
X.G. Wen
X.G. Wen
X.G. Wen
Publication date: 26 May 1995
Publisher: 'American Physical Society (APS)'
Doi

Abstract

An effective Chern-Simons theory for the Abelian quantum Hall states with edges is proposed to study the edge and bulk properties in a unified fashion. We impose a condition that the currents do not flow outside the sample. With this boundary condition, the action remains gauge invariant and the edge modes are naturally derived. We find that the integer coupling matrix

K

should satisfy the condition

\sum_I(K^{-1})_{IJ} = \nu/m

(

\nu

: filling of Landau levels,

m

: the number of gauge fields ) for the quantum Hall liquids. Then the Hall conductance is always quantized irrespective of the detailed dynamics or the randomness at the edge.Comment: 13 pages, REVTEX, one figure appended as a postscript fil

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