The MMM 2026 Conference will include basic and applied science and technology related to the field of magnetism and magnetic materials. The technical subject categories are listed below.

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.  Low-Dimensional Systems Molecular and Organic Magnets

e.  2D and Topological Magnets

a. Multiferroic Materials, Heterostructures and Magnetoelectric Phenomena

b. Complex Oxides

c.  Half-Metallic Materials and Magnetic Semiconductors

d.  New and Developing Magnetoelectronic Materials

e.  Magneto-ionics

a. Magnetoresistance (homogenous materials, GMR, TMR, TAMR)

b. Spin Injection, Damping and Spin Pumping

c.  Superconducting Spintronics

d.  Antiferromagnetic and Ferrimagnetic Spintronics

e.  Altermagnets

f.  Ultrafast and THz Spintronics

g.  Skyrmions

h.  Orbitronics

i.   Spin-Charge Conversion

j.   Topological Insulators, 2D, and Layered van der Waals Devices

a. Magnetization Dynamics, Damping, and Ultrafast Switching

b.  Spin Waves and Magnonics

c.  Domain Wall and Topological Texture Dynamics and Devices

d.  Micromagnetic, Atomistic, and Hysteresis Modeling

e.  Modeling of Magnetic Materials

f.   AI/Machine Learning Computational Methods for Materials Research

a. Ferrites and Garnets

b.  Crystalline Alloys

c.  Amorphous and Nanocrystalline Materials

a. Rare-Earth Compounds

b.  Rare-Earth Free Hard Magnetic Materials

c.  Nanostructured and Composite and Other Hard Magnetic Materials

a. Thin Films and Surface Effects

b.  Multi-Layered Films and Superlattices

c.  Nanoparticle and Nanowire Arrays and Self-Assembly

d.  Nanocomposite Magnetic Materials

e.  3D and Other Magnetic Structures

f.   Exchange Bias

a. Magneto-Optical Materials and Devices

b.  Magneto-Elastic Materials and devices

c.  Magneto-Caloric Materials and Devices

d.  New Coupled Magnetic Phenomena

a. Energy-Assisted Recording, Media, Write and Read Heads

b.  Recording Physics, Modeling, Theory, and Testing

c.  Unconventional Computing (Neuromorphic, Ising, Stochastic, Reservoir...)

d.  All-Optical Recording and Other New Recording

e.  STT-MRAM, SOT-MRAM, Magnetic Logic, and Related Devices

a. Magnetic Sensors (Non-Recording), and Energy Harvesting

b.  High Frequency, Microwave, and Millimeter Wave Devices

c.  Transformers and Inductors

d.  Magnetics for Power Electronics and Control

e.  Shielding, Levitation, and Propulsion

a. Bio-Magnetism and Biomedical Applications

b.  New Applications and Other Emerging Topics

c.  Education, Outreach, and Public Engagement in Magnetism

a. Magnetic Microscopy and Imaging

b.  Instrumentation and Measurements Techniques