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Silver route to cuprate analogs.

Jakub Gawraczyński1,2, Dominik Kurzydłowski1,3, Russell A Ewings4

  • 1Center of New Technologies, University of Warsaw, 02089 Warsaw, Poland.

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|January 18, 2019
PubMed
Summary

Researchers found that commercial [Formula: see text] is a promising analog to high-temperature superconducting cuprates. This Mott insulator exhibits strong antiferromagnetic coupling, crucial for understanding superconductivity.

Keywords:
cupratesquantum magnetismsilver fluoridesstrong correlationsuperconductivity

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Area of Science:

  • Condensed Matter Physics
  • Materials Science
  • Quantum Magnetism

Background:

  • High-temperature superconducting cuprates are complex materials with unique electronic properties.
  • The parent compound of cuprates is a Mott insulator with a square lattice of spin-[Formula: see text] ions and strong in-plane antiferromagnetic coupling.
  • Finding materials with similar characteristics is essential for advancing superconductivity research.

Purpose of the Study:

  • To identify and characterize a potential analog to high-temperature superconducting cuprates.
  • To investigate the electronic and magnetic properties of commercial [Formula: see text].
  • To compare the properties of [Formula: see text] with those of cuprates.

Main Methods:

  • Utilized a combination of experimental and theoretical tools.
  • Performed two-magnon Raman scattering.
  • Conducted inelastic neutron scattering experiments.

Main Results:

  • Commercial [Formula: see text] was identified as an excellent cuprate analog.
  • The material exhibits remarkably similar electronic parameters to cuprates, despite larger buckling of planes.
  • Superexchange constant reached 70% of that found in typical cuprates.

Conclusions:

  • Commercial [Formula: see text] serves as a valuable model system for studying cuprate superconductivity.
  • Reducing or eliminating the buckling of [Formula: see text] planes could lead to antiferromagnetic coupling matching or exceeding that of cuprates.
  • This finding opens new avenues for designing and discovering novel high-temperature superconductors.