Chiral d+is superconducting state in the two dimensional t-t' Hubbard
  model

A. Damascelli; B.E.C. Koltenbah; C. Honerkamp; C. O’Donovan; C.M. Varma; D. Zanchi; D.V. Khveshchenko; E. Pavarini; G. Hammerl; J. Mráz; J. Mráz; K.A. Musaelian; M. Mössle; M. Sigrist; M. Vojta; M.E. Simon; M.I. Salkola; P.V. Komissinski; P.W. Anderson; R. Hlubina; R. Hlubina; R. Micnas; R. Shankar; R.P. Kaur; S. Sorella; W. Kohn; X.G. Wen; Y. Dagan; Y. Yanase

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Chiral d+is superconducting state in the two dimensional t-t' Hubbard model

Authors: A. Damascelli
B.E.C. Koltenbah
C. Honerkamp
C. O’Donovan
C.M. Varma
D. Zanchi
D.V. Khveshchenko
E. Pavarini
G. Hammerl
J. Mráz
J. Mráz
K.A. Musaelian
M. Mössle
M. Sigrist
M. Vojta
M.E. Simon
M.I. Salkola
P.V. Komissinski
P.W. Anderson
R. Hlubina
R. Hlubina
R. Micnas
R. Shankar
R.P. Kaur
S. Sorella
W. Kohn
X.G. Wen
Y. Dagan
Y. Yanase
Publication date: 8 September 2003
Publisher: 'American Physical Society (APS)'
Doi

Abstract

Applying the recently developed variational approach to Kohn-Luttinger superconductivity to the t-t' Hubbard model in two dimensions, we have found, for sizeable next-nearest neighbor hopping, an electron density controlled quantum phase transition between a d-wave superconducting state close to half filling and an s-wave superconductor at lower electron density. The transition occurs via an intermediate time reversal breaking d+is superconducting phase, which is characterized by nonvanishing chirality and density-current correlation. Our results suggest the possibility of a bulk time reversal symmetry breaking state in overdoped cuprates

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