ARPES measurements of superconducting gaps in iron-chalcogenide superconductors

ORAL

Abstract

The size and momentum dependence of the superconducting gap are crucial to the determination of the mechanism leading to Cooper pairing. Previous ARPES results on iron-pnictides superconductors reveal nearly-isotropic superconducting gaps with size varying from one Fermi surface to another. Here we show that this scheme is also valid in the iron-chalcogenide superconductors. We demonstrate that the superconducting gaps can be fitted by a single function derived from local pairing scenarios. Our finding of an apparent universality in iron-based superconductivity is a serious challenge to weak coupling approaches and rather favors pairing from local antiferromagnetic exchange interactions.

Authors

  • Pierre Richard

    • Institute of Physics, Chinese Academy of Sciences

  • H. Miao

    • Institute of Physics, Chinese Academy of Sciences

  • T. Qian

    • Institute of Physics, Chinese Academy of Sciences

  • Y.-B. Shi

    • Institute of Physics, Chinese Academy of Sciences

  • N. Xu

    • Institute of Physics, Chinese Academy of Sciences

  • X.-P. Wang

    • Institute of Physics, Chinese Academy of Sciences

  • P. Zhang

    • Institute of Physics, Chinese Academy of Sciences

  • H. Ding

    • Institute of Physics, Chinese Academy of Sciences

  • X. Dai

    • Institute of Physics, Chinese Academy of Sciences

  • J.-P. Hu

    • Purdue University

  • Y.-M. Xu

    • Lawrence Berkeley National Laboratory

  • Y. Tanaka

    • Tohoku University

  • K. Nakayama

    • Tohoku University

  • K. Umezawa

    • Tohoku University

  • T. Sato

    • Tohoku University

  • T. Takahashi

    • Tohoku University

  • H.-B. Yang

    • Brookhaven National Laboratory

  • Z.-J. Xu

    • Brookhaven National Laboratory

  • J.-S. Wen

    • Brookhaven National Laboratory

  • G.-D. Gu

    • Brookhaven National Laboratory