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

Posted on June 19, 2020June 19, 2020 by Axel Hoffmann

M. T. Kaffash, W. Bang, S. Lendinez, A. Hoffmann, J. B. Ketterson, and M. B. Jungfleisch,
Physical Review B 101, 174424 (2020).

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Phonon Transport Controlled by Ferromagnetic Resonance
Temperature-dependent anisotropic magnetoresistance and spin-torque-driven vortex dynamics in a single microdisk

News

  • Heat reveals hidden magnetic secrets
  • Axel Hoffmann selected as 2020 Highly Cited Researcher
  • Resonant Dynamics of Magnetic Whirls in the Spotlight
  • Perspective on Hybrid Magnonics Featured by AIP Publishing
  • Colloquium on Magnetic Skyrmions available online

Publications

  • Distinguishing antiferromagnetic spin sublattices via the spin Seebeck effect
  • Experimental parameters, combined dynamics, and nonlinearity of a magnonic-opto-electronic oscillator (MOEO)
  • Ferromagnetic resonance in single vertices and 2D lattices macro-dipoles of elongated nanoelements: measurements and simulation
  • Dynamic excitations of chiral magnetic textures
  • Hybrid magnonics: Physics, circuits, and applications for coherent information processing
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