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Hoffmann Research Group

Materials Science & Engineering

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Control of spin dynamics in artificial honeycomb spin-ice-based nanodisks

Posted on May 15, 2020 by Axel Hoffmann

M. T. Kaffash, W. Bang, S. Lendinez, A. Hoffmann, J. B. Ketterson, and M. B. Jungfleisch,

Physical Review 101, 174424 (2020).

 

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Coupled magnetic materials show interesting properties for quantum applications
Phonon Transport Controlled by Ferromagnetic Resonance

News

  • Tzu-Hsiang Lo accepted into IEEE Magnetics Society Summer School
  • Jinho Lim receives APS Travel Award
  • Axel Hoffmann selected as 2022 Highly Cited Researcher
  • Hoffmann participates in a large research center exploring quantum materials for neuromorphic computation
  • Hoffmann studying materials whose traits resemble those of the human brain

Publications

  • The effects of field history on magnetic skyrmion formation in [Pt/Co/Ir]3 multilayers
  • Spin Transport Modified by Magnetic Order
  • Topological spin memory of antiferromagnetically coupled skyrmion pairs in Co/Gd/Pt multilayers
  • Large Exotic Spin Torques in Antiferromagnetic Iron Rhodium
  • Dynamic fingerprints of synthetic antiferromagnet nanostructures with interfacial Dzyaloshinskii-Moriya interaction
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