Yafis Barlas, Rene Côté, J. Lambert, A. H. MacDonald
Published 2009-09-08Version 1
In ordinary semiconductor bilayers, exciton condensates appear at total Landau level filling factor $\nu_{T}=1$. We predict that similar states will occur in Bernal stacked graphene bilayers at many non-zero integer filling factors. For $\nu_{T} = -3,1$ we find that the superfluid density of the exciton condensate vanishes and that a finite-temperature fluctuation induced first order isotropic-smectic phase transition occurs when the layer densities are not balanced. These anomalous properties of bilayer graphene exciton condensates are due to the degeneracy of Landau levels with $n=0$ and $n=1$ orbital character.
Comments: 4 pages, 1 figure
Journal: Phys. Rev. Lett. 104 096802 (2010)
Pinning mode resonance of a Skyrme crystal near Landau level filling factor $ν$=1
Excitonic condensation of massless fermions in graphene bilayers
Spin-Polarized to Valley-Polarized Transition in Graphene Bilayers at $ν=0$ in High Magnetic Fields
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