Delocalization in Coupled Luttinger Liquids with Impurities

A. Vishwanath; C. Bourbonnais; D. Jerome; D. S. Fisher; J. R. Engelbrecht; J. Villain; J. Voit; J. Zaanen; P. A. Lee; R. A. Klemm; R. Mukhopadhyay; Simon Bogner; Stefan Scheidl; T. Giamarchi; T. Giamarchi; T. Nattermann; T. Noda; Thorsten Emig; V. J. Emery; V. J. Emery; W. Apel; W. Apel; X. G. Wen

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Delocalization in Coupled Luttinger Liquids with Impurities

Authors: A. Vishwanath
C. Bourbonnais
D. Jerome
D. S. Fisher
J. R. Engelbrecht
J. Villain
J. Voit
J. Zaanen
P. A. Lee
R. A. Klemm
R. Mukhopadhyay
Simon Bogner
Stefan Scheidl
T. Giamarchi
T. Giamarchi
T. Nattermann
T. Noda
Thorsten Emig
V. J. Emery
V. J. Emery
W. Apel
W. Apel
X. G. Wen
Publication date: 22 March 2002
Publisher: 'American Physical Society (APS)'
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Abstract

We study effects of quenched disorder on coupled two-dimensional arrays of Luttinger liquids (LL) as a model for stripes in high-T_c compounds. In the framework of a renormalization-group analysis, we find that weak inter-LL charge-density-wave couplings are always irrelevant as opposed to the pure system. By varying either disorder strength, intra- or inter-LL interactions, the system can undergo a delocalization transition between an insulator and a novel strongly anisotropic metallic state with LL-like transport. This state is characterized by short-ranged charge-density-wave order, the superconducting order is quasi long-ranged along the stripes and short-ranged in the transversal direction.Comment: 6 pages, 5 figures, substantially extended and revised versio

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