Ballistic transport and electrostatics in metallic carbon nanotubes |
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Authors: | Svizhenko A Anantram MP Govindan TR |
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Affiliation: | Center for Nanotechnol., Nat. Aeronaut. & Space Adm., Moffett Field, CA, USA; |
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Abstract: | We calculate the current and electrostatic potential drop in metallic carbon nanotube wires self-consistently by solving the Green's function and electrostatics equations in the ballistic case. About one-tenth of the applied voltage drops across the bulk of a nanowire, independent of the lengths considered here. The remaining nine-tenths of the bias drops near the contacts, thereby creating a nonlinear potential drop. The scaling of the electric field at the center of the nanotube with length (L) is faster than 1/L (roughly 1/L/sup 1.25-1.75/). At room temperature, the low bias conductance of larger-diameter nanotubes is larger than 4e/sup 2//h due to occupation of noncrossing subbands. The physics of conductance evolution with bias due to Zener tunneling in noncrossing subbands is discussed. |
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