Han Gyeol Lee scite author profile

In quantum matters hosting electron-electron correlation and spin-orbit coupling, spatial inhomogeneities, arising from competing ground states, can be essential for determining and understanding topological properties. A prominent example is Hall anomalies observed in SrRuO 3 films, which were interpreted in terms of either magnetic skyrmion-induced topological Hall effect (THE) or inhomogeneous anomalous Hall effect (AHE). To clarify this ambiguity, we systematically investigated the AHE of SrRuO 3 ultrathin films with controllable inhomogeneities in film thickness (t SRO ). By harnessing the step-flow growth of SrRuO 3 films, we induced microscopically-ordered stripes with oneunit-cell differences in t SRO . The resultant spatial distribution of momentum-space Berry curvatures enables a two-channel AHE, which shows hump-like anomalies similar to the THE and can be continuously engineered via sub-unit-cell control of t SRO . In these inhomogeneous SRO films, we microscopically identified a two-step magnetic switching and stripe-like ferromagnetic domains. These features are fingerprints for distinguishing the two-channel AHE from the skyrmion-induced THE.

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Atomic‐Scale Metal–Insulator Transition in SrRuO₃ Ultrathin Films Triggered by Surface Termination Conversion

Lee

Wang

et al. 2019

Advanced Materials

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The metal–insulator transition (MIT) in transition‐metal‐oxide is fertile ground for exploring intriguing physics and potential device applications. Here, an atomic‐scale MIT triggered by surface termination conversion in SrRuO3 ultrathin films is reported. Uniform and effective termination engineering at the SrRuO3(001) surface can be realized via a self‐limiting water‐leaching process. As the surface termination converts from SrO to RuO2, a highly insulating and nonferromagnetic phase emerges within the topmost SrRuO3 monolayer. Such a spatially confined MIT is corroborated by systematic characterizations on electrical transport, magnetism, and scanning tunneling spectroscopy. Density functional theory calculations and X‐ray linear dichroism further suggest that the surface termination conversion breaks the local octahedral symmetry of the crystal field. The resultant modulation in 4d orbital occupancy stabilizes a nonferromagnetic insulating surface state. This work introduces a new paradigm to stimulate and tune exotic functionalities of oxide heterostructures with atomic precision.

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Colossal flexoresistance in dielectrics

et al. 2020

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Dielectrics have long been considered as unsuitable for pure electrical switches; under weak electric fields, they show extremely low conductivity, whereas under strong fields, they suffer from irreversible damage. Here, we show that flexoelectricity enables damage-free exposure of dielectrics to strong electric fields, leading to reversible switching between electrical states-insulating and conducting. Applying strain gradients with an atomic force microscope tip polarizes an ultrathin film of an archetypal dielectric SrTiO 3 via flexoelectricity, which in turn generates non-destructive, strong electrostatic fields. When the applied strain gradient exceeds a certain value, SrTiO 3 suddenly becomes highly conductive, yielding at least around a 10 8-fold decrease in room-temperature resistivity. We explain this phenomenon, which we call the colossal flexoresistance, based on the abrupt increase in the tunneling conductance of ultrathin SrTiO 3 under strain gradients. Our work extends the scope of electrical control in solids, and inspires further exploration of dielectric responses to strong electromechanical fields.

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Oxygen Vacancy Engineering for Highly Tunable Ferromagnetic Properties: A Case of SrRuO₃ Ultrathin Film with a SrTiO₃ Capping Layer

Mun

Lee

et al. 2020

Adv Funct Materials

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Oxide heterostructures have great potential for spintronics applications due to their well-defined heterointerfaces and vast functionalities. To integrate such compelling features into practical spintronics devices, effective control of the magnetic switching behavior is key. Here, continuous control of the magnetic coercive field in SrTiO 3 /SrRuO 3 ultrathin heterostructures is achieved by oxygen vacancy (V O) engineering. Pulsed laser deposition of an oxygen-deficient SrTiO 3 capping layer can trigger V O migration into the SrRuO 3 layer while avoiding the formation of Ru vacancies. Moreover, by varying the thickness and growth conditions of the SrTiO 3 capping layer, the value of the coercive field (H C) in the ferromagnetic SrRuO 3 layer can be continuously tuned. The maximum enhancement of H C at 5 K is 3.2 T. Such a wide-range tunability of H C may originate from a V O-induced enhancement of perpendicular magnetic anisotropy and domain wall pinning. This study offers effective approaches for controlling physical properties of oxide heterostructures via V O engineering, which may facilitate the development of oxide-based functional devices.

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Han Gyeol Lee

Controllable Thickness Inhomogeneity and Berry Curvature Engineering of Anomalous Hall Effect in SrRuO₃ Ultrathin Films

Atomic‐Scale Metal–Insulator Transition in SrRuO₃ Ultrathin Films Triggered by Surface Termination Conversion

Colossal flexoresistance in dielectrics

Oxygen Vacancy Engineering for Highly Tunable Ferromagnetic Properties: A Case of SrRuO₃ Ultrathin Film with a SrTiO₃ Capping Layer

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Han Gyeol Lee

Controllable Thickness Inhomogeneity and Berry Curvature Engineering of Anomalous Hall Effect in SrRuO3 Ultrathin Films

Atomic‐Scale Metal–Insulator Transition in SrRuO3 Ultrathin Films Triggered by Surface Termination Conversion

Colossal flexoresistance in dielectrics

Oxygen Vacancy Engineering for Highly Tunable Ferromagnetic Properties: A Case of SrRuO3 Ultrathin Film with a SrTiO3 Capping Layer

Contact Info

Product

Resources

About

Controllable Thickness Inhomogeneity and Berry Curvature Engineering of Anomalous Hall Effect in SrRuO₃ Ultrathin Films

Atomic‐Scale Metal–Insulator Transition in SrRuO₃ Ultrathin Films Triggered by Surface Termination Conversion

Oxygen Vacancy Engineering for Highly Tunable Ferromagnetic Properties: A Case of SrRuO₃ Ultrathin Film with a SrTiO₃ Capping Layer