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W2482859501 abstract "Abstract We investigate the longitudinal optical conductivity of spatially separated few-layer graphene analytically and numerically. Each layer could be monolayer or bilayer graphene. The density–density correlation function has been screened by the dielectric function using the random phase approximation, which includes the inter-layer Coulomb coupling. In the presence of the potential function between the layers, the carrier densities in each layer can be tuned respectively. In these two-dimensional layered structures, the main contributions to the optical conductivity are from the intra- and inter-band transition channels in a same layer. In the infrared region, the Drude optical conductivity was observed by the unscreened intra-band transition process. But in the presence of the inter-layer Coulomb interaction, one peak structure of the optical conductivity is observed which can be modified by the dielectric environment. From the number of turning points and the turning positions, the carrier density, the Fermi wavevector, and the layered structure can be determined." @default.
W2482859501 created "2016-08-23" @default.
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W2482859501 date "2016-10-01" @default.
W2482859501 modified "2023-10-16" @default.
W2482859501 title "Coulomb screening effects on the optoelectronic far-infrared properties of spatially separated few-layer graphene" @default.
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W2482859501 doi "https://doi.org/10.1016/j.physe.2016.08.008" @default.
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