Skip to content

University of Illinois at Urbana-Champaign logo.Illinois Engineering

Hoffmann Research Group

Materials Science & Engineering

  • Welcome
  • People
    • Principal Investigator
    • Postdoctoral Researchers
    • Graduate Students
    • Undergraduate Students
    • Alumni
  • Research
  • Teaching
  • Publications
  • Facilities
  • Links

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).

 

Posted in Publication

Post navigation

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

News

  • Axel Hoffmann selected as 2024 Highly Cited Researcher
  • Myoung-Woo Yoo explores systematically thermal effects in spintronics devices
  • Tzu-Hsiang Lo receives Study Abroad Scholarship from Taiwan
  • Humboldt Research Award for Axel Hoffmann
  • Axel Hoffmann receives David Sellmyer Award

Publications

  • 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
  • Unconventional Spin-Orbit Torques Due to Reduced Crystal Symmetries
  • Log In
  • Cookie Policy
  • Privacy