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Paper detail

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

Owing to a linear and gapless band structure and a tunability of the charge carrier type, graphene offers a unique system to investigate transport of Dirac Fermions at p-n junctions (PNJs). In a magnetic field, combination of quantum Hall physics and the characteristic transport across PNJs 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 PNJ 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 PNJ length. For short PNJs, the amplitude of the noise is consistent with an electronic beam-splitter behavior, whereas, for longer PNJs, 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.

preprint2016arXivOpen access
N. KumadaF. D. ParmentierH. HibinoD. C. GlattliP. Roulleau
cond-mat.mes-hallcond-mat.str-el
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N. KumadaF. D. ParmentierH. HibinoD. C. GlattliP. Roulleau

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