Physical Review Research (Jan 2023)

Variance induced decoupling of spin, lattice, and charge ordering in perovskite nickelates

  • Alessandro R. Mazza,
  • Shree Ram Acharya,
  • Patryk Wąsik,
  • Jason Lapano,
  • Jiemin Li,
  • Brianna L. Musico,
  • Veerle Keppens,
  • Christopher T. Nelson,
  • Andrew F. May,
  • Matthew Brahlek,
  • Claudio Mazzoli,
  • Jonathan Pelliciari,
  • Valentina Bisogni,
  • Valentino R. Cooper,
  • T. Zac Ward

DOI
https://doi.org/10.1103/PhysRevResearch.5.013008
Journal volume & issue
Vol. 5, no. 1
p. 013008

Abstract

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Perovskite nickelates possess an intimate connection among the structural, electronic, and magnetic orders. We investigate how crystal-field disorder induced by cation size variance impacts the emergence of macroscopic magnetic, structural, and electronic behaviors in single crystal high-entropy oxide nickelate films. The degree of variation in cation sizes hosted on the lattice is found to strongly influence critical ordering temperatures. Resonant x-ray scattering and density functional theory describe how high-variance systems produce local lattice distortions that can be used to manipulate charge disproportionation. The disorder induced shifts to local structure are shown to function as a critical order parameter capable of decoupling the nickelates’ distinctive magnetic ground state and metal-insulator transition from its charge ordered state, making it possible to stabilize room-temperature ordered phases not observed in low-variance ternary compounds.