Multiple virtual tunneling of dirac fermions in granular graphene

Alexandre Pachoud; Manu Jaiswal; Yu Wang; Byung Hee Hong; Jong Hyun Ahn; Kian Ping Loh; Barbaros Özyilmaz

doi:10.1038/srep03404

Multiple virtual tunneling of dirac fermions in granular graphene

Alexandre Pachoud, Manu Jaiswal, Yu Wang, Byung Hee Hong, Jong Hyun Ahn, Kian Ping Loh, Barbaros Özyilmaz

Department of Electrical and Electronic Engineering

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

3 Citations (Scopus)

Abstract

Graphene charge carriers behave as massless Dirac fermions, opening the exciting possibility to observe long-range virtual tunneling of electrons in a solid. In granular metals, electron hops arising from series of virtual transitions are predicted to yield observable currents at low-enough temperatures, but to date experimental evidence is lacking. We report on electron transport in granular graphene films self-assembled by hydrogenation of suspended graphene. While the log-conductance shows a characteristic T -1/2 temperature dependence, cooling the samples below 10â€...K drives a triple crossover: a slope break in log-conductance, simultaneous to a substantial increase in magneto-conductance and onset of large mesoscopic conductance fluctuations. These phenomena are signatures of virtual transitions of electrons between distant localized states, and conductance statistics reveal that the high crossover-temperature is due to the Dirac nature of granular graphene charge carriers.

Original language	English
Article number	3404
Journal	Scientific reports
Volume	3
DOIs	https://doi.org/10.1038/srep03404
Publication status	Published - 2013 Dec 3

Bibliographical note

Funding Information:
We thank A.H. Castro Neto, V. Pereira, M.A. Cazalilla and J. Martin for helpful discussions. This work was supported by the Singapore Millennium Foundation-NUS Research Horizons award (R-144-001-271-592; R-144-001-271-646), and NUS-YIA (R144-000-283-101).

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title = "Multiple virtual tunneling of dirac fermions in granular graphene",

abstract = "Graphene charge carriers behave as massless Dirac fermions, opening the exciting possibility to observe long-range virtual tunneling of electrons in a solid. In granular metals, electron hops arising from series of virtual transitions are predicted to yield observable currents at low-enough temperatures, but to date experimental evidence is lacking. We report on electron transport in granular graphene films self-assembled by hydrogenation of suspended graphene. While the log-conductance shows a characteristic T -1/2 temperature dependence, cooling the samples below 10{\^a}€...K drives a triple crossover: a slope break in log-conductance, simultaneous to a substantial increase in magneto-conductance and onset of large mesoscopic conductance fluctuations. These phenomena are signatures of virtual transitions of electrons between distant localized states, and conductance statistics reveal that the high crossover-temperature is due to the Dirac nature of granular graphene charge carriers.",

author = "Alexandre Pachoud and Manu Jaiswal and Yu Wang and Hong, {Byung Hee} and Ahn, {Jong Hyun} and Loh, {Kian Ping} and Barbaros {\"O}zyilmaz",

note = "Funding Information: We thank A.H. Castro Neto, V. Pereira, M.A. Cazalilla and J. Martin for helpful discussions. This work was supported by the Singapore Millennium Foundation-NUS Research Horizons award (R-144-001-271-592; R-144-001-271-646), and NUS-YIA (R144-000-283-101).",

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AU - Pachoud, Alexandre

AU - Jaiswal, Manu

AU - Wang, Yu

AU - Hong, Byung Hee

AU - Ahn, Jong Hyun

AU - Loh, Kian Ping

AU - Özyilmaz, Barbaros

N1 - Funding Information: We thank A.H. Castro Neto, V. Pereira, M.A. Cazalilla and J. Martin for helpful discussions. This work was supported by the Singapore Millennium Foundation-NUS Research Horizons award (R-144-001-271-592; R-144-001-271-646), and NUS-YIA (R144-000-283-101).

PY - 2013/12/3

Y1 - 2013/12/3

N2 - Graphene charge carriers behave as massless Dirac fermions, opening the exciting possibility to observe long-range virtual tunneling of electrons in a solid. In granular metals, electron hops arising from series of virtual transitions are predicted to yield observable currents at low-enough temperatures, but to date experimental evidence is lacking. We report on electron transport in granular graphene films self-assembled by hydrogenation of suspended graphene. While the log-conductance shows a characteristic T -1/2 temperature dependence, cooling the samples below 10â€...K drives a triple crossover: a slope break in log-conductance, simultaneous to a substantial increase in magneto-conductance and onset of large mesoscopic conductance fluctuations. These phenomena are signatures of virtual transitions of electrons between distant localized states, and conductance statistics reveal that the high crossover-temperature is due to the Dirac nature of granular graphene charge carriers.

AB - Graphene charge carriers behave as massless Dirac fermions, opening the exciting possibility to observe long-range virtual tunneling of electrons in a solid. In granular metals, electron hops arising from series of virtual transitions are predicted to yield observable currents at low-enough temperatures, but to date experimental evidence is lacking. We report on electron transport in granular graphene films self-assembled by hydrogenation of suspended graphene. While the log-conductance shows a characteristic T -1/2 temperature dependence, cooling the samples below 10â€...K drives a triple crossover: a slope break in log-conductance, simultaneous to a substantial increase in magneto-conductance and onset of large mesoscopic conductance fluctuations. These phenomena are signatures of virtual transitions of electrons between distant localized states, and conductance statistics reveal that the high crossover-temperature is due to the Dirac nature of granular graphene charge carriers.

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Multiple virtual tunneling of dirac fermions in granular graphene

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