Suppression of conductance fluctuation in weakly disordered mesoscopic graphene samples near the charge neutral point

Neal E. Staley; Conor P. Puls; Ying Liu

doi:10.1103/PhysRevB.77.155429

Suppression of conductance fluctuation in weakly disordered mesoscopic graphene samples near the charge neutral point

Neal E. Staley, Conor P. Puls, Ying Liu

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54 Scopus citations

Abstract

We measured the conductance fluctuation of bilayer and trilayer graphene devices, which were prepared on mechanically exfoliated graphene by an all-dry, lithography-free process by using an ultrathin quartz filament as a shadow mask. Reproducible fluctuations in conductance as a function of applied gate voltage or magnetic field were found. As the gate voltage was tuned so that the graphene device was pushed to the charge neutral point, the amplitude of the conductance fluctuation was found to be quickly suppressed from a value that is consistent with universal conductance fluctuation when the devices were still well within the weakly disordered regime. The possible physical origins of the suppression are discussed.

Original language	English (US)
Article number	155429
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	77
Issue number	15
DOIs	https://doi.org/10.1103/PhysRevB.77.155429
State	Published - Apr 18 2008

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

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10.1103/PhysRevB.77.155429

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abstract = "We measured the conductance fluctuation of bilayer and trilayer graphene devices, which were prepared on mechanically exfoliated graphene by an all-dry, lithography-free process by using an ultrathin quartz filament as a shadow mask. Reproducible fluctuations in conductance as a function of applied gate voltage or magnetic field were found. As the gate voltage was tuned so that the graphene device was pushed to the charge neutral point, the amplitude of the conductance fluctuation was found to be quickly suppressed from a value that is consistent with universal conductance fluctuation when the devices were still well within the weakly disordered regime. The possible physical origins of the suppression are discussed.",

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AU - Puls, Conor P.

AU - Liu, Ying

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N2 - We measured the conductance fluctuation of bilayer and trilayer graphene devices, which were prepared on mechanically exfoliated graphene by an all-dry, lithography-free process by using an ultrathin quartz filament as a shadow mask. Reproducible fluctuations in conductance as a function of applied gate voltage or magnetic field were found. As the gate voltage was tuned so that the graphene device was pushed to the charge neutral point, the amplitude of the conductance fluctuation was found to be quickly suppressed from a value that is consistent with universal conductance fluctuation when the devices were still well within the weakly disordered regime. The possible physical origins of the suppression are discussed.

AB - We measured the conductance fluctuation of bilayer and trilayer graphene devices, which were prepared on mechanically exfoliated graphene by an all-dry, lithography-free process by using an ultrathin quartz filament as a shadow mask. Reproducible fluctuations in conductance as a function of applied gate voltage or magnetic field were found. As the gate voltage was tuned so that the graphene device was pushed to the charge neutral point, the amplitude of the conductance fluctuation was found to be quickly suppressed from a value that is consistent with universal conductance fluctuation when the devices were still well within the weakly disordered regime. The possible physical origins of the suppression are discussed.

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Suppression of conductance fluctuation in weakly disordered mesoscopic graphene samples near the charge neutral point

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