Tuning the effective fine structure constant in graphene: Opposing effects of dielectric screening on short- and long-range potential scattering

C. Jang; S. Adam; J. H. Chen; E. D. Williams; S. Das Sarma; M. S. Fuhrer

doi:10.1103/PhysRevLett.101.146805

Tuning the effective fine structure constant in graphene: Opposing effects of dielectric screening on short- and long-range potential scattering

C. Jang
, S. Adam
, J. H. Chen
, E. D. Williams
, S. Das Sarma
, M. S. Fuhrer

Department of Physics

Research output: Contribution to journal › Article › peer-review

340 Scopus citations

Abstract

We reduce the dimensionless interaction strength α in graphene by adding a water overlayer in ultrahigh vacuum, thereby increasing dielectric screening. The mobility limited by long-range impurity scattering is increased over 30%, due to the background dielectric constant enhancement leading to a reduced interaction of electrons with charged impurities. However, the carrier-density-independent conductivity due to short-range impurities is decreased by almost 40%, due to reduced screening of the impurity potential by conduction electrons. The minimum conductivity is nearly unchanged, due to canceling contributions from the electron-hole puddle density and long-range impurity mobility. Experimental data are compared with theoretical predictions with excellent agreement.

Original language	English
Article number	146805
Journal	Physical Review Letters
Volume	101
Issue number	14
DOIs	https://doi.org/10.1103/PhysRevLett.101.146805
State	Published - Oct 3 2008

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10.1103/PhysRevLett.101.146805

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abstract = "We reduce the dimensionless interaction strength α in graphene by adding a water overlayer in ultrahigh vacuum, thereby increasing dielectric screening. The mobility limited by long-range impurity scattering is increased over 30\%, due to the background dielectric constant enhancement leading to a reduced interaction of electrons with charged impurities. However, the carrier-density-independent conductivity due to short-range impurities is decreased by almost 40\%, due to reduced screening of the impurity potential by conduction electrons. The minimum conductivity is nearly unchanged, due to canceling contributions from the electron-hole puddle density and long-range impurity mobility. Experimental data are compared with theoretical predictions with excellent agreement.",

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AU - Jang, C.

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AU - Chen, J. H.

AU - Williams, E. D.

AU - Das Sarma, S.

AU - Fuhrer, M. S.

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AB - We reduce the dimensionless interaction strength α in graphene by adding a water overlayer in ultrahigh vacuum, thereby increasing dielectric screening. The mobility limited by long-range impurity scattering is increased over 30%, due to the background dielectric constant enhancement leading to a reduced interaction of electrons with charged impurities. However, the carrier-density-independent conductivity due to short-range impurities is decreased by almost 40%, due to reduced screening of the impurity potential by conduction electrons. The minimum conductivity is nearly unchanged, due to canceling contributions from the electron-hole puddle density and long-range impurity mobility. Experimental data are compared with theoretical predictions with excellent agreement.

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JO - Physical Review Letters

JF - Physical Review Letters

IS - 14

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Tuning the effective fine structure constant in graphene: Opposing effects of dielectric screening on short- and long-range potential scattering

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