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Quantum critical behaviour in a high-Tc superconductor

Author

Listed:
  • D. van der Marel

    (University of Groningen
    Université de Genève)

  • H. J. A. Molegraaf

    (University of Groningen
    Université de Genève)

  • J. Zaanen

    (Leiden University)

  • Z. Nussinov

    (Leiden University
    Los Alamos National Laboratories)

  • F. Carbone

    (University of Groningen
    Université de Genève)

  • A. Damascelli

    (Stanford University
    University of British Columbia)

  • H. Eisaki

    (Stanford University
    National Institute of Advanced Industrial Science and Technology)

  • M. Greven

    (Stanford University)

  • P. H. Kes

    (Leiden University)

  • M. Li

    (Leiden University)

Abstract

Quantum criticality is associated with a system composed of a nearly infinite number of interacting quantum degrees of freedom at zero temperature, and it implies that the system looks on average the same regardless of the time- and length scale on which it is observed. Electrons on the atomic scale do not exhibit such symmetry, which can only be generated as a collective phenomenon through the interactions between a large number of electrons. In materials with strong electron correlations a quantum phase transition at zero temperature can occur, and a quantum critical state has been predicted1,2, which manifests itself through universal power-law behaviours of the response functions. Candidates have been found both in heavy-fermion systems3 and in the high-transition temperature (high-Tc) copper oxide superconductors4, but the reality and the physical nature of such a phase transition are still debated5,6,7. Here we report a universal behaviour that is characteristic of the quantum critical region. We demonstrate that the experimentally measured phase angle agrees precisely with the exponent of the optical conductivity. This points towards a quantum phase transition of an unconventional kind in the high-Tc superconductors.

Suggested Citation

  • D. van der Marel & H. J. A. Molegraaf & J. Zaanen & Z. Nussinov & F. Carbone & A. Damascelli & H. Eisaki & M. Greven & P. H. Kes & M. Li, 2003. "Quantum critical behaviour in a high-Tc superconductor," Nature, Nature, vol. 425(6955), pages 271-274, September.
    • Handle: RePEc:nat:nature:v:425:y:2003:i:6955:d:10.1038_nature01978
    DOI: 10.1038/nature01978
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    Cited by:

    1. Bastien Michon & Christophe Berthod & Carl Willem Rischau & Amirreza Ataei & Lu Chen & Seiki Komiya & Shimpei Ono & Louis Taillefer & Dirk Marel & Antoine Georges, 2023. "Reconciling scaling of the optical conductivity of cuprate superconductors with Planckian resistivity and specific heat," Nature Communications, Nature, vol. 14(1), pages 1-10, December.
    2. Riccardo Arpaia & Leonardo Martinelli & Marco Moretti Sala & Sergio Caprara & Abhishek Nag & Nicholas B. Brookes & Pietro Camisa & Qizhi Li & Qiang Gao & Xingjiang Zhou & Mirian Garcia-Fernandez & Ke-, 2023. "Signature of quantum criticality in cuprates by charge density fluctuations," Nature Communications, Nature, vol. 14(1), pages 1-11, December.

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