Accelerator magnets Ancillary materials for superconducting applications Applied superconductivity Biomedical diagnostics and imaging Cables (HTS, LTS), CICC, and current leads Critical current and flux pinning Critical temperature and critical fields Cryogenics for superconducting devices and system integration Electromagnetic compatibility Energy storage Functional magnetic materials and non-recording applications Fusion magnets GMR of multilayers, magnetic contacts and constrictions High-temperature superconductivity HTS magnets Insulation and dielectrics Intermetallic and other hard magnets Large superconducting and related systems Levitation, transportation, and propulsion Magnet design and analysis techniques Magnet stability, magnetization effects, AC losses and protection Magnetic fluids and separation Magnetic microscopy and imaging Magnetic semiconductors Magnetic thin films and nanostructures Magnetic tunneling junctions Magnetization and time-dependent losses Magneto-caloric materials and devices Magnetodynamics and ferromagnetic resonance Magneto-elastic materials and devices Magnetoimpedance and high frequency materials Magneto-optic materials and devices Micromagnetics and multiscale modeling Molecular and novel magnetic materials Multiferroic materials Nanostructured and composite hard magnetic materials Novel biomedical therapies and nanomedicine Organic and carbon-based spin transport Permanent magnet materials Pnictides and related materials Properties important for applications Rare earth transition metal borides Recording physics, modeling, theory and testing Shielding, levitation and propulsion Soft magnetic materials Spin transfer torque Superconducting electrical power devices Superconducting electronics Superconducting magnets Superconducting phase transition Superconductivity and zero electrical resistance