Xiaojun Huang scite author profile

We study ring-shaped (Corbino) devices made of bilayer two-dimensional electron gases in the total filling factor one quantized Hall phase, which is considered to be a coherent Bardeen-Cooper-Schrieffer-like state of interlayer excitons. Identical Josephson currents are observed at the two edges while only a negligible conductance between them is found. The maximum Josephson current observed at either edge can be controlled by passing a second interlayer Josephson current at the other edge. Because of the large electric resistance between the two edges, the interaction between them can only be mediated by the neutral interlayer excitonic ground state.

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Factors Associated with Pre-Hospital Delay and Intravenous Thrombolysis in China

Zhu¹,

Zhang²,

You

et al. 2020

Journal of Stroke and Cerebrovascular Diseases

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Signatures for Wigner Crystal Formation in the Chemical Potential of a Two-Dimensional Electron System

et al. 2014

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We investigate the evolution of the chemical potential of a two-dimensional electron system (2DES) as a function of density at a fixed magnetic field. By using a bilayer system, changes in the chemical potential of one 2DES are determined from the density variation induced in the second, nearby 2DES. At high magnetic fields around a filling factor of ν=1 or ν=2, the chemical potential jump associated with the condensation in a quantum Hall state exhibits two anomalies symmetrically located around these integer filling factors. They are attributed to the formation of a 2D Wigner crystal of quasiparticles.

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Implantable microfluidic and electronic systems for insect flight manipulation

Chung

Cordovez

Jasuja

et al. 2012

Microfluid Nanofluid

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Electronic Transport in Two Stacked Graphene Monolayers

et al. 2012

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We report on interlayer and lateral electronic transport measurements in two stacked graphene monolayers which have separate electrical contacts. The current-voltage characteristic across the two layers shows linear Ohmic behavior at zero magnetic field. At high magnetic fields, sequences of quantum Hall plateaus of the overlap region with filling factors 4, 8, and 12 are observed which can be explained by equilibration of the edge channel potentials of the individual graphene layers. An anomaly is observed at total filling factors ±2 in the overlap region. The I-V characteristic for interlayer transport turns nonlinear, and the Hall signal vanishes, indicating a magnetic field induced electrical decoupling of the two graphene layers.

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Xiaojun Huang

Coupling of Josephson Currents in Quantum Hall Bilayers

Factors Associated with Pre-Hospital Delay and Intravenous Thrombolysis in China

Signatures for Wigner Crystal Formation in the Chemical Potential of a Two-Dimensional Electron System

Implantable microfluidic and electronic systems for insect flight manipulation

Electronic Transport in Two Stacked Graphene Monolayers

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