Conductivity of interacting massless Dirac particles in graphene: Collisionless regime

Vladimir Juričić; Oskar Vafek; Igor F. Herbut

doi:10.1103/PhysRevB.82.235402

Conductivity of interacting massless Dirac particles in graphene: Collisionless regime

Vladimir Juričić
, Oskar Vafek
, Igor F. Herbut

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

68 Scopus citations

Abstract

We provide detailed calculation of the ac conductivity in the case of 1/r Coulomb interacting massless Dirac particles in graphene in the collisionless limit when ω≫T. The analysis of the electron self-energy, current vertex function, and polarization function, which enter into the calculation of physical quantities including the ac conductivity, is carried out by checking the Ward-Takahashi identities associated with the electrical charge conservation and making sure that they are satisfied at each step. We adopt a variant of the dimensional regularization of Veltman and 't Hooft by taking the spatial dimension D=2-ε for ε>0. The procedure adopted here yields a result for the conductivity correction which, while explicitly preserving charge conservation laws, is nevertheless different from the results reported previously in literature.

Original language	English (US)
Article number	235402
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	82
Issue number	23
DOIs	https://doi.org/10.1103/PhysRevB.82.235402
State	Published - Dec 1 2010
Externally published	Yes

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title = "Conductivity of interacting massless Dirac particles in graphene: Collisionless regime",

abstract = "We provide detailed calculation of the ac conductivity in the case of 1/r Coulomb interacting massless Dirac particles in graphene in the collisionless limit when ω≫T. The analysis of the electron self-energy, current vertex function, and polarization function, which enter into the calculation of physical quantities including the ac conductivity, is carried out by checking the Ward-Takahashi identities associated with the electrical charge conservation and making sure that they are satisfied at each step. We adopt a variant of the dimensional regularization of Veltman and 't Hooft by taking the spatial dimension D=2-ε for ε>0. The procedure adopted here yields a result for the conductivity correction which, while explicitly preserving charge conservation laws, is nevertheless different from the results reported previously in literature.",

author = "Vladimir Juri{\v c}i{\'c} and Oskar Vafek and Herbut, \{Igor F.\}",

year = "2010",

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doi = "10.1103/PhysRevB.82.235402",

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T1 - Conductivity of interacting massless Dirac particles in graphene

T2 - Collisionless regime

AU - Juričić, Vladimir

AU - Vafek, Oskar

AU - Herbut, Igor F.

PY - 2010/12/1

Y1 - 2010/12/1

N2 - We provide detailed calculation of the ac conductivity in the case of 1/r Coulomb interacting massless Dirac particles in graphene in the collisionless limit when ω≫T. The analysis of the electron self-energy, current vertex function, and polarization function, which enter into the calculation of physical quantities including the ac conductivity, is carried out by checking the Ward-Takahashi identities associated with the electrical charge conservation and making sure that they are satisfied at each step. We adopt a variant of the dimensional regularization of Veltman and 't Hooft by taking the spatial dimension D=2-ε for ε>0. The procedure adopted here yields a result for the conductivity correction which, while explicitly preserving charge conservation laws, is nevertheless different from the results reported previously in literature.

AB - We provide detailed calculation of the ac conductivity in the case of 1/r Coulomb interacting massless Dirac particles in graphene in the collisionless limit when ω≫T. The analysis of the electron self-energy, current vertex function, and polarization function, which enter into the calculation of physical quantities including the ac conductivity, is carried out by checking the Ward-Takahashi identities associated with the electrical charge conservation and making sure that they are satisfied at each step. We adopt a variant of the dimensional regularization of Veltman and 't Hooft by taking the spatial dimension D=2-ε for ε>0. The procedure adopted here yields a result for the conductivity correction which, while explicitly preserving charge conservation laws, is nevertheless different from the results reported previously in literature.

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Conductivity of interacting massless Dirac particles in graphene: Collisionless regime

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