Hidden Order in the Cuprates

A. Abanov; A. Larkin; A.J. Millis; A.V. Chubukov; A.V. Puchkov; B.I. Halperin; C. Castellani; C. Castellani; C. Nayak; C. Nayak; C.C. Homes; C.C. Homes; C.M. Varma; C.M. Varma; C.N. Yang; Ch. Niedermeyer; Ch. Renner; Ch. Renner; Chetan Nayak; D.A. Ivanov; Dirk K. Morr; F. Slakey; F.C. Chou; G. Bilbro; G. Blumberg; G. Kotliar; G.S. Boebinger; H. Westfahl, Jr.; H.F. Fong; H.J. Schulz; I. Dzyaloshinskii; J. Cardy; J. Haase; J. Schmalian; J. Zaanen; J.B. Marston; J.C. Davis; J.L. Tallon; J.L. Tallon; J.L. Tallon; J.M. Harris; J.M. Tranquada; J.M. Tranquada; J.W. Loram; K.H. Fischer; L. Balents; M. Matsuda; M. Randeria; M.R. Norman; O.K. Andersen; P. Bourges; P. Bourges; P. Dai; P.C. Hammel; P.W. Anderson; Q. Chen; R. B. Laughlin; R. Ferrell; R.A. Pelcovits; R.E. Walstedt; R.F. Kiefl; R.R.P. Singh; S. Caprara; S. Chakravarty; S. Chakravarty; S. Kivelson; S. Ono; S. Sachdev; S. Wakimoto; S.C. Zhang; Sudip Chakravarty; T. Hsu; T. Timusk; V.J. Emery; X.-G. Wen; Y. Lee; Y.J. Uemura

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Hidden Order in the Cuprates

Authors: A. Abanov
A. Larkin
A.J. Millis
A.V. Chubukov
A.V. Puchkov
B.I. Halperin
C. Castellani
C. Castellani
C. Nayak
C. Nayak
C.C. Homes
C.C. Homes
C.M. Varma
C.M. Varma
C.N. Yang
Ch. Niedermeyer
Ch. Renner
Ch. Renner
Chetan Nayak
D.A. Ivanov
Dirk K. Morr
F. Slakey
F.C. Chou
G. Bilbro
G. Blumberg
G. Kotliar
G.S. Boebinger
Jr. H. Westfahl
H.F. Fong
H.J. Schulz
I. Dzyaloshinskii
J. Cardy
J. Haase
J. Schmalian
J. Zaanen
J.B. Marston
J.C. Davis
J.L. Tallon
J.L. Tallon
J.L. Tallon
J.M. Harris
J.M. Tranquada
J.M. Tranquada
J.W. Loram
K.H. Fischer
L. Balents
M. Matsuda
M. Randeria
M.R. Norman
O.K. Andersen
P. Bourges
P. Bourges
P. Dai
P.C. Hammel
P.W. Anderson
Q. Chen
R. B. Laughlin
R. Ferrell
R.A. Pelcovits
R.E. Walstedt
R.F. Kiefl
R.R.P. Singh
S. Caprara
S. Chakravarty
S. Chakravarty
S. Kivelson
S. Ono
S. Sachdev
S. Wakimoto
S.C. Zhang
Sudip Chakravarty
T. Hsu
T. Timusk
V.J. Emery
X.-G. Wen
Y. Lee
Y.J. Uemura
Publication date: 5 September 2000
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We propose that the enigmatic pseudogap phase of cuprate superconductors is characterized by a hidden broken symmetry of d(x^2-y^2)-type. The transition to this state is rounded by disorder, but in the limit that the disorder is made sufficiently small, the pseudogap crossover should reveal itself to be such a transition. The ordered state breaks time-reversal, translational, and rotational symmetries, but it is invariant under the combination of any two. We discuss these ideas in the context of ten specific experimental properties of the cuprates, and make several predictions, including the existence of an as-yet undetected metal-metal transition under the superconducting dome.Comment: 12 pages of RevTeX, 9 eps figure

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