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Transport signatures of pseudo-magnetic Landau levels in strained graphene ribbons

In inhomogeneously strained graphene, low-energy electrons experience a valley-antisymmetric pseudo-magnetic field which leads to the formation of localized states at the edge between the valence and conduction bands, understood in terms of peculiar n=0 pseudo-magnetic Landau levels. Here we show that such states can manifest themselves as an isolated quadruplet of low-energy conductance resonances in a suspended stretched graphene ribbon, where clamping by the metallic contacts results in a strong inhomogeneity of strain near the ribbon ends.

preprint2013arXivOpen access
Diana A. GradinarMarcin Mucha-KruczyńskiHenning SchomerusVladimir I. Fal'ko
cond-mat.mes-hall
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Open access4 authors1 topic
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Diana A. GradinarMarcin Mucha-KruczyńskiHenning SchomerusVladimir I. Fal'ko

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