Topics
Special Machines and Geared Machines
a. Magnetically Geared Electrical Machines
b. Vernier Machines
c. Memory and Variable Flux Machines
d. Special Rotating Electrical Machines
Energy Harvesting, Vibration Analysis and Advanced
Materials/Manufacturing
a. Energy Harvesting Applications
b. Magnetic Aspects of Vibration Analysis
c. Additive Magnetic Material Modeling and Application
Computing with Magnetism and Magnetic Materials
a. AI and Machine Learning
b. Neuromorphic Computing
c. Reservoir Computing
d. Reversible Computing
e. Quantum Transduction and Spin Qubits
f. Ising Machines
g. Probabilistic and Unconventional Computing
Microscopy, Imaging, and Magnetic Characterization
a. Instrumentation and Measurement Techniques
b. Magnetic Microscopy and Imaging
12. Interdisciplinary and Emerging Topics
a. Bio-Magnetism and Biomedical Applications
b. Biomedical Diagnostics and Imaging
c. Biomedical Therapies and Nanomedicine
d. Magnetic Fluids and Separations
e. Geomagnetism
f. Interdisciplinary and Emerging Topics Related to Magnetism
and Magnetic Materials
Electrical Machines and Power Electronics
a. (Semi)-Analytical and Numerical Techniques for Design
b. Magnetic Aspects of Electrical Machine Optimization
c. Magnetic Loss and Thermal Modeling and Measurements
d. High-Speed Machines
e. Wound-Field and Multi-Excited Rotating Electrical Machines
f. Induction and Reluctance Machines
g. Magnetic Bearings and Magnetic Levitation
h. Transformers, Inductors and Magnetic Aspects Related to
Power Electronics
i. Linear Machines, Actuators, and Application
j. Surface and Interior Permanent Magnet Machines
k. Non-Rare Earth Permanent Magnet Machines
l. Reluctance Machines
Magnetic Recording
a. Recording Media, Write and Read Heads
b. Energy-Assisted Recording
c. All-Optical Recording and Other New Recording
d. Recording Physics, Modeling, Theory, and Testing
Sensors and Applications
a. Sensors (Non-Recording Devices and Concepts)
b. Microwave and Millimeter Wave Materials and Devices
c. Shielding, Bearings, and Levitation
d. Applications to Internet of Things (IoT)
e. Security with Magnetic Materials and Devices
f. New Applications
Spintronics
a. Magnetoresistance (Homogenous Materials, GMR, TMR, TAMR)
b. Spin Injection, Damping and Spin Pumping
c. Spins transport in Graphene,Topological Insulators,
and 2D Materials
d. Spin Caloritronics and Topological Thermoelectrics
e. Spintronic Devices (MRAM, Magnetic Logic, Oscillators,
Detectors, etc)
f. Spin-Orbitronics (Spin-Orbit Torque, Orbital Torque,
Dzyaloshinskii-Moriya Interaction)
g. Spin-Orbitronics Devices
h. Antiferromagnetic and Ferrimagnetic Spintronics
i. THz Spintronics
j. Altermagnets
Magnetization Dynamics and Micromagnetics
a. Ultrafast Magnetization Dynamics and Switching
b. Spin Waves and Magnonics
c. Magnetic Texture Static and Dynamics (Domain Wall,
Skyrmions, Hopfions, etc.)
d. Micromagnetic and Hysteresis Modeling
e. Modeling of Magnetic Metamaterials
f. New Approaches in Computational Magnetism
Structured Materials
a. Thin Films and Surface Effects
b. Multi-Layered Films and Superlattices
c. Patterned Films and Elements
d. Exchange Bias
e. Nanoparticle and Nanowire (Individual and Arrays)
and Self-Assembly
f. Nanocomposite Magnetic Materials
g. 3D and Other Magnetic Structures
Materials with Coupled Magnetic Functionality
a. Magneto-Optical Materials
b. Magneto-Elastic Materials
c. Magneto-Caloric and Multi-Caloric Materials
d. New Coupled Magnetic Phenomena
Soft Magnetic Materials
a. Ferrites and Garnets
b. Crystalline Alloys
c. Amorphous and Nanocrystalline Materials
d. Magneto-Dielectric Materials
Hard Magnetic Materials
a. Rare-Earth Compounds
b. Intermetallic Alloys
c. Nanostructured and Composite Hard Magnetic Materials
d. Other Hard Magnetic Materials
e. Rare-Earth Free Hard Magnetic Materials
Fundamental Properties and Cooperative Phenomena
a. Electronic Structure and Critical Phenomena
b. Highly Frustrated Magnetism, Spin Glasses and Heavy
Fermion Systems
c. Quantum Materials and Cooperative States: Superconductivity,
Spin Liquids, Chern Insulators
d. f-electron Magnetism, Low-Dimensional Systems
e. Molecular and Organic Magnets
f. Topological Insulators and Dirac Materials
g. 2D materials and Layered van der Waals Materials
Magnetoelectronic Materials and Phenomena
a. Heusler Alloys
b. Complex Oxides
c. Half-Metallic Materials and Magnetic Semiconductors
d. Multiferroics and Magnetoelectric Phenomena and Materials
e. Voltage-Controlled Magnetic Anisotropy
f. Magneto-Ionics