S3 – Frontiers in Ferroic Oxides: Synthesis, Structure, Properties, and Applications
This symposium will provide an international, interdisciplinary forum for scientists and engineers from academia, industry, and national laboratories to present the latest advances in ferroic oxide materials. Complex oxides offer an extremely wide range of properties not observed in conventional metals or compound semiconductors. Further, in these correlated materials, new emergent phenomena may arise at intrinsic homointerfaces such as domain walls. This symposium will focus on the interdisciplinary topics related to the physics, materials science, and engineering within the field of ferroic oxides, domains, and domain walls.
The topical list for this symposium reflects the materials needs and challenges within the field, with emphasis on synthesis, ferroic domain/domain wall architecture-property correlations, and exploratory devices. The speakers will span the breadth of these interdisciplinary topics in order to accelerate the understanding and development of materials and heterostructures to enable new functionalities for (multi)ferroic oxides.
- Magnetic, ferroelectric, and multiferroic films and ceramics
- Synthesis of ferroic oxides
- Structure and defects, structure-property relationships
- Domain and domain walls
- Theory and modeling: Domain structure and evolution
- Materials Integration and Applications: Rewritable electronics using domain walls, computational devices, sensors, transducers, actuators, medical devices
- John Heron, University of Michigan, Michigan, USA, firstname.lastname@example.org
- Morgan Trassin, ETH Zurich, Laboratory of Functional Materials, Switzerland, email@example.com
- Jinxing Zhang, Beijing Normal University, Beijing, China, firstname.lastname@example.org