Ching Hao Chang scite author profile

Snake orbits are trajectories of charge carriers curving back and forth that form at an interface where either the magnetic field direction or the charge carrier type are inverted. In ballistic samples, their presence is manifested in the appearance of magnetoconductance oscillations at small magnetic fields. Here we show that signatures of snake orbits can also be found in the opposite diffusive transport regime. We illustrate this by studying the classical magnetotransport properties of carbon tubular structures subject to relatively weak transversal magnetic fields where snake trajectories appear in close proximity to the zero radial field projections. In carbon nanoscrolls, the formation of snake orbits leads to a strongly directional dependent positive magnetoresistance with an anisotropy up to 80%.

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Defect-Induced Exchange Bias in a Single SrRuO₃ Layer

Wang

Chen

Chang

et al. 2018

ACS Appl. Mater. Interfaces

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Exchange bias stems from the interaction between different magnetic phases, and therefore, it generally occurs in magnetic multilayers. Here, we present a large exchange bias in a single SrRuO layer induced by helium ion irradiation. When the fluence increases, the induced defects not only suppress the magnetization and the Curie temperature but also drive a metal-insulator transition at a low temperature. In particular, a large exchange bias field up to ∼0.36 T can be created by the irradiation. This large exchange bias is related to the coexistence of different magnetic and structural phases that are introduced by embedded defects. Our work demonstrates that spintronic properties in complex oxides can be created and enhanced by applying ion irradiation.

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Tunable disorder and localization in the rare-earth nickelates

Wang

Chang

Huang

et al. 2019

Phys. Rev. Materials

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The rare-earth nickelates are a rich playground for transport properties, known to host non-Fermi liquid character, resistance saturation and metal-insulator transitions. We report a study of transport in LaNiO 3 in the presence of tunable disorder induced by irradiation. While pristine LaNiO 3 samples are metallic, highly irradiated samples show insulating behaviour at all temperatures. Using irradiation fluence as a tuning handle, we uncover an intermediate region hosting a metal-insulator transition. This transition falls within the Mott-Ioffe-Regel regime wherein the mean free path is comparable to lattice spacing. In the high temperature metallic regime, we find a transition from non-Fermi liquid to a Fermi-liquid-like character. On the insulating side of the metal-insulator transition, we find behaviour that is consistent with weak localization. This is reflected in magnetoresistance that scales with the square of the field and in resistivity. In the highly irradiated insulating samples, we find good agreement with variable range hopping, consistent with Anderson localization. We find qualitatively similar behaviour in thick PrNiO 3 films as well. Our results demonstrate that ion irradiation can be used to tailor transport, serving as an excellent tool to study the physics of localization.

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Ching Hao Chang

Hall effects in artificially corrugated bilayer graphene without breaking time-reversal symmetry

Theoretical Prediction of a Giant Anisotropic Magnetoresistance in Carbon Nanoscrolls

Defect-Induced Exchange Bias in a Single SrRuO₃ Layer

Tunable disorder and localization in the rare-earth nickelates

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Ching Hao Chang

Hall effects in artificially corrugated bilayer graphene without breaking time-reversal symmetry

Theoretical Prediction of a Giant Anisotropic Magnetoresistance in Carbon Nanoscrolls

Defect-Induced Exchange Bias in a Single SrRuO3 Layer

Tunable disorder and localization in the rare-earth nickelates

Contact Info

Product

Resources

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Defect-Induced Exchange Bias in a Single SrRuO₃ Layer