I. Fundamental Properties and Cooperative Phenomena
- Electronic Structure and Phase Transitions
- Quantum Materials and Cooperative States: Superconductivity, Spin Liquids, Chem Insulators, etc.
II. Magnetoelectronic Materials and Phenomena
- Multiferroic Materials and Hetero-Structures
- Complex Oxides (Bulk, Films and Heterostructures)
- Hall Effect and Magnetic Semiconductors
III. Spintronics - Fundamentals and Devices
- Giant Magnetoresistance
- Tunnel Magnetoresistance
- Voltage-Controlled Magnetic Anisotropy and Switching
- MRAM, Magnetic Logic, and Related Devices
- Domains and Domain Wall Devices
- Skyrmions and Spin-Orbitronics
- Antiferromagnetic Spintronics
- Spin Injection and Spin Transfer Torques
- Neuromorphic Computing
- Spin Currents, Spin Pumping, Spin Hall, and Related Effects
IV. Magnetization Dynamics and Micromagnetics
- Magnetization Dynamics and Damping
- Spin Waves
- Micromagnetic Modeling
V. Soft Magnetic Materials
- Ferrites and Garnets
- Crystalline Alloys
- Materials
|
VI. Structured Materials
- Thin Films and Surface Effects
- Multi-Layered Films and Superlattices
- Patterned Films
- Nanoparticle and Nanowire Arrays and Self-Assembly
- Exchange Bias
- 3D and Other Magnetic Structures
- Superconducting thin film and Heterostructures
VII. Special Magnetic Materials
- Magneto-Optic Materials
- Magneto-Elastic Materials
- Magneto-Caloric Materials
- Microwave and Millimeter-Wave Materials e. New Magnetic Materials
VIII. Magnetic Recording
- Recording Media
- Write and Read Heads
- Energy-Assisted Recording
- All-Optical Recording and Other New Recording e. Recording Systems and Modeling
IX. Sensors, High Frequency Devices and Power Devices
- Magnetic Sensors (non-recording)
- High-Frequency, Microwave, and Millimeter Wave Devices
- Transformers and Inductors
- Magnetics for Power Electronics and Control
- Shielding, Levitation and Propulsion
X. Magnetic Characterization
- Magnetic Microscopy and Imaging
- Instrumentation and Measurement Techniques
|