Atomic scale impact of La doping on the electronic structure in bilayer iridate Sr<sub>3</sub>Ir<sub>2</sub>O<sub>7</sub>

ORAL

Abstract

Strongly correlated electronic systems exhibit exotic states created by intricate interplay between strong spin-orbit coupling, Coulomb repulsion, and crystal field. Doped marginal Mott insulators are crucial to study at the nanoscale because of the inherent local nature of the interactions and disorder. Here, we use scanning tunneling microscopy (STM) to study La-doped bilayer strontium iridate Sr3Ir2O7 (Ir327), a member of Ruddlesden-Popper series of perovskite iridates. By inhomogeneously supplying electrons, La doping creates nanoscale phase separation and drives the crystal through the metal/Mott-insulator transition. The crystal structure of Ir327 is composed of stacked bilayers of corner-sharing IrO6 octahedra, while La atoms are introduced into Sr sites. By analyzing STM topography and spectroscopy, we conclude that (a) La-dopants preferentially dope the middle Sr-O plane in each bilayer and (b) La atoms in the middle plane are responsible for in-gap spectral weight transfer and impurity states. We report observation of charge or orbital order in the outer Sr-O planes. No similar order has been observed in the pristine or Ru-doped Ir327. We explain the results in terms of spatial interplay between strong local interactions and effect of the dopants.

*NSF Award# DMR-1610143

Presenters

  • Yulia Maximenko

    • Department of Physics, Univ of Illinois - Urbana-Champaign

Authors

  • Yulia Maximenko

    • Department of Physics, Univ of Illinois - Urbana-Champaign

  • Zhenyu Wang

    • University of Illinois - Urbana Champaign
    • Physics, University of Illinois
    • Physics, Univeristy of Illinois at Urbana-Champaign
    • Univ of Illinois - Urbana
    • Department of Physics, University of Illinois
    • Physics, Univ of Illinois - Urbana
    • Department of Physics, Univ of Illinois - Urbana-Champaign

  • Daniel Walkup

    • NIST
    • National Institute of Standards and Technology
    • CNST, NIST

  • Wenwen Zhou

    • Boston College
    • Department of Physics, Boston College

  • Tom Hogan

    • University of California
    • Materials Department, UCSB
    • Univ of California - Santa Barbara

  • Stephen Wilson

    • Materials, University of California, Santa Barbara
    • Materials Department, University of California, Santa Barbara
    • University of California
    • University of California, Santa Barbara
    • Materials Department, UCSB

  • Vidya Madhavan

    • Physics, Univ of Illinois - Urbana
    • Physics, Univ of Illinois
    • University of Illinois - Urbana Champaign
    • Physics, University of Illinois
    • University of Illinois at Urbana-Champaign
    • Physics, Univeristy of Illinois at Urbana-Champaign
    • Univ of Illinois - Urbana
    • Department of Physics, University of Illinois
    • Department of Physics, Univ of Illinois - Urbana-Champaign