Design and Manipulation of Ferroic Domains in Complex Oxide Heterostructures
Open access
Date
2019Type
- Review Article
Abstract
The current burst of device concepts based on nanoscale domain-control in magnetically and electrically ordered systems motivates us to review the recent development in the design of domain engineered oxide heterostructures. The improved ability to design and control advanced ferroic domain architectures came hand in hand with major advances in investigation capacity of nanoscale ferroic states. The new avenues offered by prototypical multiferroic materials, in which electric and magnetic orders coexist, are expanding beyond the canonical low-energy-consuming electrical control of a net magnetization. Domain pattern inversion, for instance, holds promises of increased functionalities. In this review, we first describe the recent development in the creation of controlled ferroelectric and multiferroic domain architectures in thin films and multilayers. We then present techniques for probing the domain state with a particular focus on non-invasive tools allowing the determination of buried ferroic states. Finally, we discuss the switching events and their domain analysis, providing critical insight into the evolution of device concepts involving multiferroic thin films and heterostructures. Show more
Permanent link
https://doi.org/10.3929/ethz-b-000369931Publication status
publishedExternal links
Journal / series
MaterialsVolume
Pages / Article No.
Publisher
MDPISubject
Multiferroic; Magnetoelectric; Ferroelectrics; domain inversion; ferroelectric vortices; domain imprintOrganisational unit
03918 - Fiebig, Manfred / Fiebig, Manfred
Funding
694955 - In-situ second harmonic generation for emergent electronics in transition-metal oxides (EC)
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