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Spin Symmetry of the Bilayer Graphene Groundstate

We show nonlinear transport experiments on clean, suspended bilayer graphene that reveal a gap in the density of states. Looking at the evolution of the gap in magnetic fields of different orientation, we find that the groundstate is a spin-ordered phase. Of the three possible gapped groundstates that are predicted by theory for equal charge distribution between the layers, we can therefore exclude the quantum anomalous Hall phase, leaving the layer antiferromagnet and the quantum spin Hall phase as the only possible gapped groundstates for bilayer graphene.

preprint2013arXivOpen access
Frank FreitagMarkus WeissRomain MaurandJelena TrbovicChristian Schönenberger
cond-mat.mes-hall
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Frank FreitagMarkus WeissRomain MaurandJelena TrbovicChristian Schönenberger

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