1,041 research outputs found

    Intrinsic and extrinsic decay of edge magnetoplasmons in graphene

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    We investigate intrinsic and extrinsic decay of edge magnetoplasmons (EMPs) in graphene quantum Hall (QH) systems by high-frequency electronic measurements. From EMP resonances in disk shaped graphene, we show that the dispersion relation of EMPs is nonlinear due to interactions, giving rise to intrinsic decay of EMP wavepacket. We also identify extrinsic dissipation mechanisms due to interaction with localized states in bulk graphene from the decay time of EMP wavepackets. We indicate that, owing to the unique linear and gapless band structure, EMP dissipation in graphene can be lower than that in GaAs systems.Comment: 5 page

    Mortality secondary to fulminant hepatic failure in patients with prior resolution of hepatitis B virus infection in Japan

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    © 2006 by [The University of Chicago Press ]ArticleCLINICAL INFECTIOUS DISEASES. 47(5):E52-E56(2008)journal articl

    Anisotropy of Magnetoresistance Hysteresis around the ν=2/3\nu=2/3 Quantum Hall State in Tilted Magnetic Field

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    We present an anisotropy of the hysteretic transport around the spin transition point at Landau level filling factor ν=2/3\nu=2/3 in tilted magnetic field. When the direction of the in-plane component of the magnetic field B∥B_{\parallel} is normal to the probe current II, a strong hysteretic transport due to the current-induced nuclear spin polarization occurs. When B∥B_{\parallel} is parallel to II, on the other hand, the hysteresis almost disappears. We also demonstrate that the nuclear spin-lattice relaxation rate T1−1T_{1}^{-1} at the transition point increases with decreasing angle between the directions of B∥B_{\parallel} and II. These results suggest that the morphology of electron spin domains around ν=2/3\nu =2/3 is affected by the current direction.Comment: 4 pages, 4 figure

    Shot noise generated by graphene p–n junctions in the quantum Hall effect regime

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    International audienceGraphene offers a unique system to investigate transport of Dirac Fermions at p–n junctions. In a magnetic field, combination of quantum Hall physics and the characteristic transport across p–n junctions leads to a fractionally quantized conductance associated with the mixing of electron-like and hole-like modes and their subsequent partitioning. The mixing and partitioning suggest that a p–n junction could be used as an electronic beam splitter. Here we report the shot noise study of the mode-mixing process and demonstrate the crucial role of the p–n junction length. For short p–n junctions, the amplitude of the noise is consistent with an electronic beam-splitter behaviour, whereas, for longer p–n junctions, it is reduced by the energy relaxation. Remarkably, the relaxation length is much larger than typical size of mesoscopic devices, encouraging using graphene for electron quantum optics and quantum information processing

    Skyrmion ↔\leftrightarrow pseudoSkyrmion Transition in Bilayer Quantum Hall States at ν=1\nu =1

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    Bilayer quantum Hall states at ν=1\nu =1 have been demonstrated to possess a distinguished state with interlayer phase coherence. The state has both excitations of Skyrmion with spin and pseudoSkyrmion with pseudospin. We show that Skyrmion ↔\leftrightarrow pseudoSkyrmion transition arises in the state by changing imbalance between electron densities in both layers; PseudoSkyrmion is realized at balance point, while Skyrmion is realized at large imbalance. The transition can be seen by observing the dependence of activation energies on magnetic field parallel to the layers.Comment: 12 pages, no figure

    Designing BODIPY-based probes for fluorescence imaging of β-amyloid plaques

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    Styryl-congutated BODIPY dyes which are structurally similar to known Aβ peptide binding dyes, were designed and synthesized. The binding is accompanied by a large increase in the emission intensity in all cases, suggesting a high potential for use in the fluorescence imaging of Aβ plaques. © 2014 the Partner Organisations
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