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Magnetostatic spin-waves in an yttrium iron garnet thin film: Comparison between theory and experiment for arbitrary field directions

Posted on April 9, 2020April 10, 2020 by Axel Hoffmann

J. Lim, W. Bang, J. Trossman, D. Amanov, C. C. Tsai, M. B. Jungfleisch, A. Hoffmann, and J. B. Ketterson,

Journal of Applied Physics 126, 243906 (2019).

 

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Spin-wave frequency division multiplexing in an yttrium iron garnet microstripe magnetized by inhomogeneous field
Magnetic Damping Modulation in IrMn3/Ni80Fe20 via the Magnetic Spin Hall Effect

News

  • Axel Hoffmann selected as 2025 Highly Cited Researcher
  • Axel Hoffmann named I-MRSEC director
  • Bobby Kaman receives ARCS Scholarship
  • Enhanced quantum computers and beyond: exploring magnons with superconducting qubits
  • Axel Hoffmann selected as 2024 Highly Cited Researcher

Publications

  • Magnetostriction and temperature dependent Gilbert damping in boron doped Fe80Ga20 thin films
  • High-dynamic-range quantum sensing of magnons and their dynamics using a superconducting qubit
  • Single-shot magnon interference in a magnon-superconducting-resonator hybrid circuit
  • Strong Damping-Like Torques in Wafer-Scale MoTe2 Grown by MOCVD
  • Single-shot electrical detection of short-wavelength magnon pulse transmission in a magnonic thin-film waveguide
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