Suppression of T<sub>C</sub> in an underdoped iron-based superconductor through uniaxial strain

ORAL

Abstract

The iron-based superconductors generically have been shown to host the electronic nematic phase which competes with superconductivity. Previous work has also shown that anisotropic strain is particularly well suited as a tunable, symmetry breaking field that can couple to the nematic order parameter. In this work, we present electrical transport, magnetic susceptibility, and single crystal x-ray diffraction measurements demonstrating that the superconducting transition in an underdoped iron-based superconductor is efficiently tuned towards zero temperature through the application of large, uniaxial strain that enhances the orthorhobmic distortion. This demonstrates that application of mechanical strain is a novel external parameter that is able to tune a superconductor to metal transition in a three-dimensional system.

*AFOSR Grant No. FA9550-17-1-0217

Gordon and Betty Moore Foundation’s EPiQS Initiative, Grant GBMF6759

Presenters

  • Paul Malinowski

    • University of Washington

Authors

  • Paul Malinowski

    • University of Washington

  • Shua Sanchez

    • University of Washington

  • Joshua Mutch

    • University of Washington

  • Qianni Jiang

    • Physics, University of Washington
    • Physics, University of Washington, Seattle
    • University of Washington

  • Jong-Woo Kim

    • Advanced Photon Source, Argonne National Laboratory
    • Argonne National Labs
    • Advanced Photon Source, Argonne National Labs

  • Philip Ryan

    • Advanced Photon Source, Argonne National Laboratory
    • Argonne National Labs
    • Advanced Photon Source, Argonne National Labs

  • Jiun-Haw Chu

    • Physics, University of Washington
    • Physics, University of Washington, Seattle
    • University of Washington