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Paper detail

Nernst effect in the cuprate superconductor YBCO: Broken rotational and translational symmetries

The Nernst coefficient of the cuprate superconductor YBa2Cu3Oy was recently shown to become strongly anisotropic within the basal plane when cooled below the pseudogap temperature T*, revealing that the pseudogap phase breaks the four-fold rotational symmetry of the CuO2 planes. Here we report on the evolution of this Nernst anisotropy at low temperature, once superconductivity is suppressed by a magnetic field. We find that the anisotropy drops rapidly below 80 K, to vanish in the T=0 limit. We show that this loss of anisotropy is due to the emergence of a small high-mobility electron-like pocket in the Fermi surface at low temperature, a reconstruction attributed to a low-temperature state that breaks the translational symmetry of the CuO2 planes. We discuss the sequence of broken symmetries - first rotational, then translational - in terms of an electronic nematic-to-smectic transition such as could arise when unidirectional spin or charge modulations order. We compare YBa2Cu3Oy with iron-pnictide superconductors where the process of (unidirectional) antiferromagnetic ordering gives rises to the same sequence of broken symmetries.

preprint2011arXivOpen access
J. ChangNicolas Doiron-LeyraudFrancis LalibertéR. DaouDavid LeBoeufB. J. RamshawRuixing LiangD. A. BonnW. N. HardyCyril ProustI. SheikinK. BehniaLouis Taillefer
cond-mat.supr-concond-mat.str-el
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J. ChangNicolas Doiron-LeyraudFrancis LalibertéR. DaouDavid LeBoeufB. J. RamshawRuixing LiangD. A. BonnW. N. HardyCyril ProustI. SheikinK. BehniaLouis Taillefer

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