Unconventional quantum Hall effect and Berry’s phase of 2π in bilayer graphene
Kostya S. Novoselov,Edward McCann,Sergey V. Morozov,Vladimir I. Fal'ko,Mikhail I. Katsnelson,Uli Zeitler,Da Jiang,Fred Schedin,Andre K. Geim +8 more
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TLDR
In this paper, a third type of integer quantum Hall effect is reported in bilayer graphene, where charge carriers have a parabolic energy spectrum but are chiral and show Berry's phase 2π affecting their quantum dynamics.Abstract:
There are two known distinct types of the integer quantum Hall effect. One is the conventional quantum Hall effect, characteristic of two-dimensional semiconductor systems1,2, and the other is its relativistic counterpart observed in graphene, where charge carriers mimic Dirac fermions characterized by Berry’s phase π, which results in shifted positions of the Hall plateaus3,4,5,6,7,8,9. Here we report a third type of the integer quantum Hall effect. Charge carriers in bilayer graphene have a parabolic energy spectrum but are chiral and show Berry’s phase 2π affecting their quantum dynamics. The Landau quantization of these fermions results in plateaus in Hall conductivity at standard integer positions, but the last (zero-level) plateau is missing. The zero-level anomaly is accompanied by metallic conductivity in the limit of low concentrations and high magnetic fields, in stark contrast to the conventional, insulating behaviour in this regime. The revealed chiral fermions have no known analogues and present an intriguing case for quantum-mechanical studies.read more
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On-demand doping of graphene by stamping with a chemically functionalized rubber lens.
TL;DR: Graphene doping using a stamp with a chemically functionalized rubber lens was confirmed by both Raman spectroscopy and charge transport measurements and may be applied to other emergent 2D materials to tightly modulate the electrical properties in advanced electronic devices.
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Out-of-Plane Dielectric Susceptibility of Graphene in Twistronic and Bernal Bilayers
Sergey Slizovskiy,Aitor Garcia-Ruiz,A. I. Berdyugin,Na Xin,Takashi Taniguchi,Kenji Watanabe,Andre K. Geim,Neil Drummond,Vladimir I. Fal'ko,Vladimir I. Fal'ko +9 more
TL;DR: In this article, the out-of-plane dielectric polarizability of bilayer graphene has been investigated using density functional theory, and it was shown that the on-layer electron density distribution at zero magnetic field and the interlayer Landau level pinning at quantizing magnetic fields can be described well by polarization αexp = 10.8 A3.
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Quantum transport in double-gated graphene devices
TL;DR: In this article, the authors present transport measurements of single layer, bilayer and trilayer graphene devices with suspended top gates, and they observe formation of pnp junctions with tunable polarity and charge densities.
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Redox-switchable devices based on functionalized graphene nanoribbons.
TL;DR: A novel approach to the design of reversible switches based on functionalized graphene nanoribbons, operating upon application of an external redox potential, which exhibit unprecedented ON/OFF ratios are reported.
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Proximity effects in cold atom artificial graphene
TL;DR: In this article, the authors proposed to bring artificial graphene into the proximity of a second atomic layer with a square lattice geometry, and they found that such bilayer system undergoes a phase transition from a graphene-like semi-metal phase, characterized by a band structure with Dirac points, to a gapped band insulator phase.
References
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Electric Field Effect in Atomically Thin Carbon Films
Kostya S. Novoselov,Andre K. Geim,Sergey V. Morozov,Da Jiang,Y. Zhang,S. V. Dubonos,Irina V. Grigorieva,A. A. Firsov +7 more
TL;DR: Monocrystalline graphitic films are found to be a two-dimensional semimetal with a tiny overlap between valence and conductance bands and they exhibit a strong ambipolar electric field effect.
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Two-dimensional gas of massless Dirac fermions in graphene
Kostya S. Novoselov,A. K. Geim,Sergey V. Morozov,Da Jiang,Mikhail I. Katsnelson,Irina V. Grigorieva,S. V. Dubonos,A. A. Firsov +7 more
TL;DR: This study reports an experimental study of a condensed-matter system (graphene, a single atomic layer of carbon) in which electron transport is essentially governed by Dirac's (relativistic) equation and reveals a variety of unusual phenomena that are characteristic of two-dimensional Dirac fermions.
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Experimental observation of the quantum Hall effect and Berry's phase in graphene
TL;DR: In this paper, an experimental investigation of magneto-transport in a high-mobility single layer of Graphene is presented, where an unusual half-integer quantum Hall effect for both electron and hole carriers in graphene is observed.
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Two-dimensional atomic crystals
Kostya S. Novoselov,Da Jiang,Fred Schedin,Timothy J. Booth,V. V. Khotkevich,Sergey V. Morozov,Andre K. Geim +6 more
TL;DR: By using micromechanical cleavage, a variety of 2D crystals including single layers of boron nitride, graphite, several dichalcogenides, and complex oxides are prepared and studied.
Journal Article
Experimental Observation of Quantum Hall Effect and Berry's Phase in Graphene
TL;DR: An experimental investigation of magneto-transport in a high-mobility single layer of graphene observes an unusual half-integer quantum Hall effect for both electron and hole carriers in graphene.