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Switchable polar spirals in tricolor oxide superlattices
Zijian Hong,
Long Qing Chen
Materials Science and Engineering
Institute for Computational and Data Sciences (ICDS)
Materials Research Institute (MRI)
Research output
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Contribution to journal
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Article
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peer-review
21
Scopus citations
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Keyphrases
Topological Structure
100%
Oxide Superlattices
100%
Tricolor
100%
Spiral Structure
100%
Polar Vortex
66%
Layer Thickness
33%
PbTiO3
33%
SrTiO3
33%
High Thermal Stability
33%
Phase Transformation
33%
Ultra-high
33%
Enhanced Stability
33%
Phase Diagram
33%
Phase-field Model
33%
Orthorhombic
33%
Domain Structure
33%
Vortex Core
33%
Ordered Arrays
33%
Tunability
33%
Curie Temperature
33%
Ferroelectric Superlattice
33%
Multiple Phases
33%
BiFeO3
33%
Switching Process
33%
Ferroelectric State
33%
Multiferroics
33%
Flux Closure
33%
In-plane Electric Field
33%
Vortex Array
33%
Ferroelectric Layer
33%
In-plane Polarization
33%
Ferromagnetic System
33%
Polar Skyrmion
33%
Spiral Vortex
33%
Material Science
Oxide Compound
100%
Superlattice
100%
Vortex
100%
Ferroelectric Material
60%
Thermal Stability
20%
Curie Temperature
20%
Multiferroic Material
20%
Bismuth Ferrite
20%
Physics
Superlattice
100%
Nanoscale
66%
Phase Diagrams
33%
Multiferroic Material
33%
Curie Temperature
33%
Engineering
Vortex
100%
Nanoscale
40%
Layer Thickness
20%
Phase Field
20%
Domain Structure
20%
Future Application
20%