Physical Review X (Sep 2017)

Anisotropy of the Seebeck Coefficient in the Cuprate Superconductor YBa_{2}Cu_{3}O_{y}: Fermi-Surface Reconstruction by Bidirectional Charge Order

  • O. Cyr-Choinière,
  • S. Badoux,
  • G. Grissonnanche,
  • B. Michon,
  • S. A. A. Afshar,
  • S. Fortier,
  • D. LeBoeuf,
  • D. Graf,
  • J. Day,
  • D. A. Bonn,
  • W. N. Hardy,
  • R. Liang,
  • N. Doiron-Leyraud,
  • Louis Taillefer

DOI
https://doi.org/10.1103/PhysRevX.7.031042
Journal volume & issue
Vol. 7, no. 3
p. 031042

Abstract

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The Seebeck coefficient S of the cuprate YBa_{2}Cu_{3}O_{y} is measured in magnetic fields large enough to suppress superconductivity, at hole dopings p=0.11 and p=0.12, for heat currents along the a and b directions of the orthorhombic crystal structure. For both directions, S/T decreases and becomes negative at low temperature, a signature that the Fermi surface undergoes a reconstruction due to broken translational symmetry. Above a clear threshold field, a strong new feature appears in S_{b}, for conduction along the b axis only. We attribute this feature to the onset of 3D-coherent unidirectional charge-density-wave modulations seen by x-ray diffraction, also along the b axis only. Because these modulations have a sharp onset temperature well below the temperature where S/T starts to drop towards negative values, we infer that they are not the cause of Fermi-surface reconstruction. Instead, the reconstruction must be caused by the quasi-2D bidirectional modulations that develop at significantly higher temperature. The unidirectional order only confers an additional anisotropy to the already reconstructed Fermi surface, also manifest as an in-plane anisotropy of the resistivity.