Ferromagnetic Resonance in BTO-BFO Films Grown on LSMO

ORAL

Abstract

We synthesized epitaxial BTO-BFO films grown on LSMO with decreased leakage and improved multiferroic properties. This work provides new direction for ferromagnetic resonance studies in high quality BTO-BFO films. We observed small Gilbert damping ( α=0.004) and the absence of large inhomogeneous broadening, in a film with 80 nm thickness of BTO-BFO on LSMO (110). Magnetic insulators, such as BTO-BFO are potentially excellent candidates for pure spin current without the existence of charge current.This new materials system can provid opportunities for spin transfer in multifunctional materials where controlling magnetization or spin current, is crucial toward for developing nanoscale spin-based memory and devices.

*This material is based upon work supported by the Air Force Office of Scienti c Research under award numbers: FA9550-14-1-0376 and FA9550-17-1-0341. D. Maurya acknowledges the support from office of basic energy science, department of energy DE-FG02-06ER46290.
M. Alves acknowledges the support from the Brazilian agency CNPq.

Presenters

  • Giti Khodaparast

    • Virginia Tech
    • Physics, Virginia Tech

Authors

  • Giti Khodaparast

    • Virginia Tech
    • Physics, Virginia Tech

  • Han-Byul Kang

    • Virginia Tech

  • Benjamin Madon

    • Ecole Polytechnique
    • IBM Almaden Research Center
    • IBM Research - Almaden, San Jose, California 95120, United States

  • Min Gyu Kang

    • Virginia Tech

  • Brenden A Magill

    • Virginia Tech
    • Physics, Virginia Tech

  • Deepam Maurya

    • Virginia Tech

  • Shashank Priya

    • Virginia Tech
    • Virginia Tech/Penn State

  • Henri-Jean M DROUHIN

    • Ecole Polytechnique

  • Jean-Eric Wegrowe

    • Ecole Polytechnique

  • Marcos Alves

    • Ecole Polytechnique