Electronic contributions to the Raman spectrum of twisted bilayer graphene
ORAL
Abstract
Using the continuum model, we study theoretically the purely electronic contributions to the Raman spectrum of twisted bilayer graphene (tBLG) for twist angles close to the magic angle [1]. We show that non-resonant excitations of electron-hole pairs between the first minibands above and below the neutrality point lead to a peak, the position of which is determined by the twist angle. We estimate the quantum efficiency of this Raman feature as ∼10-13, about two orders of magnitude less than the intensity of the G peak [2]. Because of its electronic origin, the new peak provides direct information about the flatness of the first minibands in tBLG.
[1] R. Bistritzer et al., PNAS 108, 12233-12237, (2011)
[2] D. Basko, Phys. Rev. B 78, 125418 –(2008)
[1] R. Bistritzer et al., PNAS 108, 12233-12237, (2011)
[2] D. Basko, Phys. Rev. B 78, 125418 –(2008)
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Presenters
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Aitor Garcia-Ruiz
Physics, University of Bath
Authors
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Aitor Garcia-Ruiz
Physics, University of Bath
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Marcin Mucha-Kruczynski
Physics, University of Bath
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Joshua Thompson
Physics, University of Bath
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Vladimir Falko
School of physics and astronomy, the University of Manchester, University of Manchester, UK, School of Physics and Astronomy, University of Manchester, School of Physics & Astronomy, University of Manchester, National Graphene Institute