Physical Review Research (Apr 2021)

Large response of charge stripes to uniaxial stress in La_{1.475}Nd_{0.4}Sr_{0.125}CuO_{4}

  • T. J. Boyle,
  • M. Walker,
  • A. Ruiz,
  • E. Schierle,
  • Z. Zhao,
  • F. Boschini,
  • R. Sutarto,
  • T. D. Boyko,
  • W. Moore,
  • N. Tamura,
  • F. He,
  • E. Weschke,
  • A. Gozar,
  • W. Peng,
  • A. C. Komarek,
  • A. Damascelli,
  • C. Schüßler-Langeheine,
  • A. Frano,
  • E. H. da Silva Neto,
  • S. Blanco-Canosa

DOI
https://doi.org/10.1103/PhysRevResearch.3.L022004
Journal volume & issue
Vol. 3, no. 2
p. L022004

Abstract

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The La-based “214” cuprates host several symmetry-breaking phases, including superconductivity, charge and spin order in the form of stripes, and a structural orthorhombic-to-tetragonal phase transition. Therefore these materials are an ideal system to study the effects of uniaxial stress onto the various correlations that pervade the cuprate phase diagram. We report resonant x-ray scattering experiments on La_{1.475}Nd_{0.4}Sr_{0.125}CuO_{4}(LNSCO-125) that reveal a significant response of charge stripes to uniaxial tensile stress of ∼0.1GPa. These effects include a reduction of the onset temperature of stripes by ∼50K, a 29-K reduction of the low-temperature orthorhombic-to-tetragonal transition, competition between charge order and superconductivity, and a preference for stripes to form along the direction of applied stress. Altogether, we observe a dramatic response of the electronic properties of LNSCO-125 to a modest amount of uniaxial stress.