Eli Rotenberg scite author profile

We describe the synthesis of bilayer graphene thin films deposited on insulating silicon carbide and report the characterization of their electronic band structure using angle-resolved photoemission. By selectively adjusting the carrier concentration in each layer, changes in the Coulomb potential led to control of the gap between valence and conduction bands. This control over the band structure suggests the potential application of bilayer graphene to switching functions in atomic-scale electronic devices

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Towards wafer-size graphene layers by atmospheric pressure graphitization of silicon carbide

Emtsev

et al. 2009

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NovelJeff=1/2Mott State Induced by Relativistic Spin-Orbit Coupling inSr2IrO4

et al. 2008

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We investigated electronic structure of 5d transition-metal oxide Sr 2 IrO 4 using angle-resolved photoemission, optical conductivity, and x-ray absorption measurements and first-principles band calculations. The system was found to be well described by novel effective total angular momentum J eff states, in which relativistic spin-orbit (SO) coupling is fully taken into account under a large crystal field. Despite of delocalized Ir 5d states, the J eff -states form so narrow bands that even a small correlation energy leads to the J eff = 1/2 Mott ground state with unique electronic and magnetic behaviors, suggesting a new class of the J eff quantum spin driven correlated-electron phenomena.

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Eli Rotenberg

Controlling the Electronic Structure of Bilayer Graphene

Towards wafer-size graphene layers by atmospheric pressure graphitization of silicon carbide

NovelJeff=1/2Mott State Induced by Relativistic Spin-Orbit Coupling inSr2IrO4

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