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Showing 1–5 of 5 results
Advanced filters: Author: Veronica Goian Clear advanced filters

  • Strain can modify properties, but to prevent cracking is limited to films below a critical thickness. Here, by inserting atomic layers into a ferroelectric superlattice, chemical pressure is generated in thicker films, with enhanced figure of merit for tuneable millimetre-wave dielectrics.

    • Natalie M. Dawley
    • Eric J. Marksz
    • Darrell G. Schlom
    Research
    Nature Materials
    Volume: 19, P: 176-181

  • Ferroelectric ferromagnets — materials that are both ferroelectric and ferromagnetic — are of significant technological interest. But they are rare, and those that do exist have weak ferroelectric and ferromagnetic properties. Recently a new way of fabricating such materials was proposed, involving strain from the underlying substrate. This route has now been realized experimentally for EuTiO3. The work shows that a single experimental parameter, strain, can simultaneously control multiple order parameters.

    • June Hyuk Lee
    • Lei Fang
    • Darrell G. Schlom
    Research
    Nature
    Volume: 466, P: 954-958

  • A new family of tunable microwave dielectrics with unparalleled performance at frequencies up to 125 GHz at room temperature has been created, using dimensionality to add and control a local ferroelectric instability in a system with exceptionally low dielectric loss.

    • Che-Hui Lee
    • Nathan D. Orloff
    • Darrell G. Schlom
    Research
    Nature
    Volume: 502, P: 532-536

  • Multiferroics that are both ferroelectric and ferromagnetic are highly desirable for technological applications but extremely rare. Here, signatures of a ferroelectric phase transition, supported by theoretical calculations, are observed in ferromagnetic EuO under a large epitaxial strain of 6.4%.

    • Veronica Goian
    • Rainer Held
    • Stanislav Kamba
    ResearchOpen Access
    Communications Materials
    Volume: 1, P: 1-10