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Interlayer Interaction and Electronic Screening in Multilayer Graphene Investigated with Angle-Resolved Photoemission Spectroscopy
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Abstract
The unusual transport properties of graphene are the direct consequence of a peculiar
band structure near the Dirac point. We determine the shape of the pi bands and their
characteristic splitting, and find the transition from two-dimensional to bulk character
for 1 to 4 layers of graphene by angle-resolved photoemission. By detailed measurements
of the pi bands we derive the stacking order, layer-dependent electron potential,
screening length, and strength of interlayer interaction by comparison with tight
binding calculations, yielding a comprehensive description of multilayer graphene's
electronic structure.
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Most cited references22
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Asymmetry gap in the electronic band structure of bilayer graphene
Edward McCann (2006)
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Heteroepitaxial graphite on6H−SiC(0001): Interface formation through conduction-band electronic structure
I. Forbeaux, J.-M. Themlin, J.-M. Debever (1998)