Nodal electronic scattering rates, T*, and the phase diagram in hole doped cuprate superconductors

ORAL

Abstract

Based upon detailed angle resolved photoemission spectroscopy measurements of a wide range of doping of Bi$_{2}$Sr$_{2}$CaCu$_{2}$O$_{8+\delta}$, we present a unified phenomenology for the non-Fermi liquid normal-state interactions (scattering rates) in the nodal direction, which we show are dominated by a single parameter that smoothly varies with doping. When viewed over typical experimental temperature ranges this phenomenology has a curvature change that mimics the T* ``pseudogap'' temperature scale observed in transport experiments, including the possible quantum critical point.

Authors

  • Daniel Dessau

    • University of Colorado, Boulder

  • T.J. Reber

    • University of Colorado

  • Xiaoqing Zhou

    • University of Colorado, Boulder

  • Haoxiang Li

    • University of Colorado, Boulder

  • Justin Waugh

    • University of Colorado, Boulder

  • Stephen Parham

    • University of Colorado, Boulder

  • Yue Cao

    • University of Colorado, Boulder

  • Zhe Sun

    • University of Colorado, Boulder

  • Qiang Wang

    • University of Colorado, Boulder

  • Michael Hermele

    • University of Colorado, Boulder

  • Gerald Arnold

    • University of Colorado, Boulder

  • J.S. Wen

    • Brookhaven National Labs

  • Zhijun Xu

    • Brookhaven National Labs

  • Genda Gu

    • Brookhaven National Laboratory
    • Condensed Matter Physics and Materials Science Department, Brookhaven National laboratory
    • Brookhaven Natl Lab
    • Brookhaven National Lab
    • Brookhaven National Labs

  • Nick Plumb

    • University of Colorado, Boulder

  • Yoshiyuki Yoshida

    • AIST Tsukuba

  • Hiroshi Eisaki

    • Electronics and Photonics Research Institute, AIST, Japan
    • National Institute of Advanced Industrial Science and Technology
    • AIST Tsukuba