Bostwick A, Speck F, Seyller T, Horn K, Polini M, Asgari R, Macdonald AH, Rotenberg E (2010)
Publication Type: Journal article
Publication year: 2010
Book Volume: 328
Pages Range: 999-1002
Journal Issue: 5981
A hallmark of graphene is its unusual conical band structure that leads to a zero-energy band gap at a single Dirac crossing point. By measuring the spectral function of charge carriers in quasi-freestanding graphene with angle-resolved photoemission spectroscopy, we showed that at finite doping, this well-known linear Dirac spectrum does not provide a full description of the charge-carrying excitations. We observed composite ``plasmaron'' particles, which are bound states of charge carriers with plasmons, the density oscillations of the graphene electron gas. The Dirac crossing point is resolved into three crossings: the first between pure charge bands, the second between pure plasmaron bands, and the third a ring-shaped crossing between charge and plasmaron bands.
APA:
Bostwick, A., Speck, F., Seyller, T., Horn, K., Polini, M., Asgari, R.,... Rotenberg, E. (2010). Observation of Plasmarons in Quasi-Freestanding Doped Graphene. Science, 328(5981), 999-1002. https://doi.org/10.1126/science.1186489
MLA:
Bostwick, Aaron, et al. "Observation of Plasmarons in Quasi-Freestanding Doped Graphene." Science 328.5981 (2010): 999-1002.
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