Evidence for interlayer electronic coupling in multilayer epitaxial graphene from polarization-dependent coherently controlled photocurrent generation

Most experimental studies to date of multilayer epitaxial graphene on C-face SiC have indicated that the electronic states of different layers are decoupled as a consequence of rotational stacking. We have measured the third-order nonlinear tensor in epitaxial graphene as a novel approach to probe i...

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Veröffentlicht in:	Physical review. B, Condensed matter and materials physics Condensed matter and materials physics, 2012-04, Vol.85 (16), Article 165427
Hauptverfasser:	Sun, Dong, Rioux, Julien, Sipe, J. E., Zou, Yang, Mihnev, Momchil T., Berger, Claire, de Heer, Walt A., First, Phillip N., Norris, Theodore B.
Format:	Artikel
Sprache:	eng
Schlagworte:	Coherence Condensed Matter Electronics Epitaxy Graphene Interlayers Joining Materials Science Mathematical models Photoelectric effect Physics Polarization
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container_title	Physical review. B, Condensed matter and materials physics
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creator	Sun, Dong Rioux, Julien Sipe, J. E. Zou, Yang Mihnev, Momchil T. Berger, Claire de Heer, Walt A. First, Phillip N. Norris, Theodore B.
description	Most experimental studies to date of multilayer epitaxial graphene on C-face SiC have indicated that the electronic states of different layers are decoupled as a consequence of rotational stacking. We have measured the third-order nonlinear tensor in epitaxial graphene as a novel approach to probe interlayer electronic coupling, by studying THz emission from coherently controlled photocurrents as a function of the optical pump and THz beam polarizations. We find that the polarization dependence of the coherently controlled THz emission expected from perfectly uncoupled layers, i.e. a single graphene sheet, is not observed. We hypothesize that the observed angular dependence arises from weak coupling between the layers; a model calculation, treating the interlayer coupling as bilayer coupling with variable strength, qualitatively reproduces the polarization angular dependence, providing evidence for coupling.
doi_str_mv	10.1103/PhysRevB.85.165427
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subjects	Coherence Condensed Matter Electronics Epitaxy Graphene Interlayers Joining Materials Science Mathematical models Photoelectric effect Physics Polarization
title	Evidence for interlayer electronic coupling in multilayer epitaxial graphene from polarization-dependent coherently controlled photocurrent generation
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