The ever-growing field of magnetic materials enables countless technologies, including information storage, sensing, transportation, communications, and biomedical applications.  Additionally, superconductivity and magnetism and their correlation to spin, charge, and orbital order parameters are dominant topics in quantum material research. To bridge the gap between fundamental research and device performance/applications for magnetic and superconducting materials requires approaches that transect multiple disciplines and require a collaborative approach.

This symposium covers a broad range of topics related to magnetism, including superconductivity; the magnetic materials synthesis, characterization, and applications thereof; plus other topics of magnetic materials. Specific topics include superconducting magnetic materials, synthesis and characterization of nanomaterials and composites, modeling at multiple length scales, microwave or mm-wave materials, spintronics devices, magneto-ionics, magnetocalorics, and rare-earth-free permanent magnets. Relevant work spanning theory, synthesis, and characterization of new materials and phenomena is welcomed for submission to this symposium. The goal is to create an interdisciplinary forum where stakeholders from academia, industry, and national laboratories can discuss cutting-edge research to foster new collaborations to further advance the field of magnetism.

Proposed sessions

• Low dimensional, correlated magnetic materials
• Superconducting materials and devices related to magnetic orders and fluctuations
• Crystal growth, large area thin film deposition of magnetic materials and 2D magnets.
• Electronic, optical, and magnetic properties of 2D magnets and their heterostructures with other van der Waals materials
• Structures, dynamics, and properties of moiré superlattices of 2D materials
• Magnetic and superconducting devices: from nanoscale to large scale applications
• Novel applications of magnetic materials: magnetoelectrics, magneto-ionic transport, magnetocalorics, hybrid magnonics, magnetoresistance, quantum magnetic phenomena.

Other related magnetic and superconducting materials:
• New Superconducting Materials and related synthesis & properties
• Superconductivity and competing phases: theory and advanced characterizations
• Superconducting and magnetic electronics and devices
• Nanomaterials and composites, skyrmions and other topological phenomenon, 2D magnetic materials.
• Multiscale modeling of magnetism: first principles calculations, phase-field modeling, micromagnetics simulations, finite element analysis, high-throughput evaluation of materials.
• High frequency magnetic phenomena: spintronics, microwave materials, ultrafast switching and other magnetization dynamics.
• Sustainability in magnetics research: rare earth-free permanent magnets, materials recycling and other novel synthesis processes from waste products, low temperature or other energy efficient processing methods, green technologies

Lead Organizers

Lv Bing, University of Texas at Dallas, USA, blv@utdallas.edu

Michael Susner (U. S. Air Force Research Laboratory) – michael.susner.1@us.af.mil

Sara Mills (U.S. Naval Research Laboratory) – sara.c.mills.civ@us.navy.mil

Jiamian Hu (University of Wisconsin) – jhu238@wisc.edu

Timothy Haugen (U. S. Air Force Research Laboratory) – tjhaugan@hotmail.com

Connor Smith (U.S. Naval Academy) – cssmith@usna.edu

Sponsored By

Sponsor Logo