Abstract

The symposium Magnetism and Superconductivity in 3D highlights recent experimental and computational advances in three-dimensional magnetic, superconducting, and hybrid nanoarchitectures, emphasizing phenomena that emerge beyond planar systems. Contributions will cover confinement effects in 3D superconductors, field-driven vortex pinning and flux quantization in complex W–C superconducting arrays, and reconfigurable superconducting architectures enabling local control of superconductivity. Additionally, curvature- and topology-induced effects in magnetization dynamics in curved and curvilinear nanostructures, and the emergence of effects like strong magnon-magnon coupling and new collective spin dynamics in 3D, will be discussed. Together with these new phenomena, the talks will cover recent technical advances for non-planar systems, including controlled 3D nano-printing of magnetic and superconducting materials, methods for engineering curvature and chirality, and advanced tomographic imaging and efficient computational methods in 3D. The symposium will thus provide a comprehensive overview of the state of the art in 3D magnetism and superconductivity and outline pathways for exploiting three-dimensional geometry, topology, and nanoscale design in next-generation quantum and spintronic devices.

Confirmed invited speakers

• Vladimir Fomin - IFW Dresden, Germany
• Sabri Koraltan - TU Wien, Austria

Organizers