Crystals (May 2020)

Unconventional Co-Existence of Insulating Nano-Regions and Conducting Filaments in Reduced SrTiO<sub>3</sub>: Mode Softening, Local Piezoelectricity, and Metallicity

  • Annette Bussmann-Holder,
  • Hugo Keller,
  • Arndt Simon,
  • Gustav Bihlmayer,
  • Krystian Roleder,
  • Krzysztof Szot

DOI
https://doi.org/10.3390/cryst10060437
Journal volume & issue
Vol. 10, no. 6
p. 437

Abstract

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Doped SrTiO3 becomes a metal at extremely low doping concentrations n and is even superconducting at n 1020 cm−3, with the superconducting transition temperature adopting a dome-like shape with increasing carrier concentration. In this paper it is shown within the polarizability model and from first principles calculations that up to a well-defined carrier concentration nc transverse optic mode softening takes place together with polar nano-domain formation, which provides evidence of inhomogeneity and a two-component type behavior with metallicity coexisting with polarity. Beyond this region, a conventional metal is formed where superconductivity as well as mode softening is absent. For n ≤ nc the effective electron-phonon coupling follows the superconducting transition temperature. Effusion measurements, as well as macroscopic and nanoscopic conductivity measurements, indicate that the distribution of oxygen vacancies is local and inhomogeneous, from which it is concluded that metallicity stems from filaments which are embedded in a polar matrix as long as n ≤ nc.

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