Emergent Ferroelectric Switching Behavior from Polar Vortex Lattice.
Piush BeheraEric ParsonnetFernando Gómez-OrtizVishantak SrikrishnaPeter MeisenheimerSandhya SusarlaPravin KavleLucas CarettaYongjun WuZishen TianAbel FernandezLane W MartinSujit DasJavier JunqueraZijian HongRamamoorthy RameshPublished in: Advanced materials (Deerfield Beach, Fla.) (2023)
Topologically protected polar textures have provided a rich playground for the exploration of novel, emergent phenomena. Recent discoveries indicate that ferroelectric vortices and skyrmions not only host properties markedly different from traditional ferroelectrics, but also that these properties can be harnessed for unique memory devices. Using a combination of capacitor-based capacitance measurements and computational models, we demonstrate that polar vortices in dielectric-ferroelectric-dielectric trilayers exhibit classical ferroelectric bi-stability together with the existence of low-field metastable polarization states. This behavior is directly tied to the in-plane vortex ordering, and we show that it can be used as a new method of non-destructive readout-out of the poled state. This article is protected by copyright. All rights reserved.
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