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W3100567921 abstract "Recent measurements have shown that a continuously tunable bandgap of up to 250 meV can be generated in biased bilayer graphene [Y. Zhang et al., Nature 459, 820 (2009)], opening up pathway for possible graphene-based nanoelectronic and nanophotonic devices operating at room temperature. Here, we show that the optical response of this system is dominated by bound excitons. The main feature of the optical absorbance spectrum is determined by a single symmetric peak arising from excitons, a profile that is markedly different from that of an interband transition picture. Under laboratory conditions, the binding energy of the excitons may be tuned with the external bias going from zero to several tens of meV's. These novel strong excitonic behaviors result from a peculiar, effective ``one-dimensional'' joint density of states and a continuously-tunable bandgap in biased bilayer graphene. Moreover, we show that the electronic structure (level degeneracy, optical selection rules, etc.) of the bound excitons in a biased bilayer graphene is markedly different from that of a two-dimensional hydrogen atom because of the pseudospin physics." @default.
W3100567921 created "2020-11-23" @default.
W3100567921 creator A5036817463 @default.
W3100567921 creator A5045377460 @default.
W3100567921 date "2010-01-15" @default.
W3100567921 modified "2023-09-29" @default.
W3100567921 title "Tunable Excitons in Biased Bilayer Graphene" @default.
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W3100567921 doi "https://doi.org/10.1021/nl902932k" @default.
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