Technical Categories

  • Magnetization processes, magnetic domains, micromagnetism;
  • Cooperative phenomena, critical behavior, frustrated magnetism and spin glasses;
  • Quantum, correlated, and topological magnetic materials.

  • Ferromagnetic resonance, spin waves, and domain wall dynamics;
  • Ultrafast magnetization dynamics and switching;
  • Topologically non-trivial spin textures (e.g., skyrmions, vortices).

  • Bulk, thin films, multilayers, and nanostructured materials;
  • Oxides, ferrites, garnets, Heusler alloys, amorphous and crystalline systems;
  • Rare-earth and rare-earth-free magnetic materials.

  • Nanoparticles, nanocomposites, granular and composite materials;
  • Two-dimensional and van der Waals magnetic materials;
  • Multiferroic, magnetoelectric, magnetocaloric, magnetoelastic and magneto-optical materials.

  • Magnetoresistance effects (GMR, TMR, ...);
  • Spin transport, spin–orbit torques, spin caloritronics;
  • Antiferromagnetic and ferrimagnetic spintronics, spintronic devices.

  • Magnetic microscopy and imaging;
  • Advanced instrumentation and measurement techniques;
  • Non-destructive and in situ magnetic characterization methods.

  • Atomistic, micromagnetic, and multiscale simulations;
  • Modeling of hysteresis and dynamic processes;
  • Machine learning and data-driven approaches in magnetism.

  • Sensors, recording and memory technologies;
  • Energy harvesting, microwave and THz devices;
  • Electrical machines, electromagnetic devices, and industrial applications.

  • Quantum magnetism and quantum information;
  • Neuromorphic and non-conventional computing with magnetic systems;
  • Biomedical applications, magnetofluidics, and interdisciplinary research.

  • Contributions related to magnetism that do not fit into the categories above;
  • Novel, exploratory, or interdisciplinary studies;
  • General topics aligned with the scope of the workshop.