K. Shizuya
Published 2012-05-29, updated 2012-07-05Version 2
In a magnetic field bilayer graphene supports an octet of zero-energy Landau levels with an extra twofold degeneracy in Landau orbitals n=0 and n=1. It is shown that this orbital degeneracy is lifted due to Coulombic quantum fluctuations of the valence band (the Dirac sea); this is a quantum effect analogous to the Lamb shift in the hydrogen atom. A detailed study is made of how these zero-energy levels evolve, with filling, into a variety of pseudo-zero-mode Landau levels in the presence of possible spin and valley breaking and Coulomb interactions, and a comparison is made with experimental results.
Comments: 12 pages, 4 figures, revtex; added references, to appear in PRB
Journal: Phys. Rev. B 86, 045431 (2012)
Pseudo-zero-mode Landau levels and collective excitations in bilayer graphene
Orbital Lamb shift and mixing of the pseudo-zero-mode Landau levels in ABC-stacked trilayer graphene
Pseudo-zero-mode Landau levels and pseudospin waves in bilayer graphene
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