Quantum Hall States near the Charge-Neutral Dirac Point in Graphene

Abstract

We investigate the quantum Hall (QH) states near the charge-neutral Dirac point of a high mobility graphene sample in high magnetic fields. We find that the QH states at filling factors nu=+/-1 depend only on the perpendicular component of the field with respect to the graphene plane, indicating that they are not spin related. A nonlinear magnetic field dependence of the activation energy gap at filling factor nu=1 suggests a many-body origin. We therefore propose that the nu=0 and +/-1 states arise from the lifting of the spin and sublattice degeneracy of the n=0 Landau level, respectively.

References

Page 1

	Year	Citations
Two-dimensional gas of massless Dirac fermions in graphene Kostya S. Novoselov, A. K. Geǐm, Da Jiang, Nature Graphene NanomeshesMassless Dirac FermionsEngineeringPhysicsCondensed Matter Physics	2005	21.1K
Experimental observation of the quantum Hall effect and Berry's phase in graphene Yuanbo Zhang, Yan‐Wen Tan, H. L. Störmer, Nature Materials ScienceQuantum ScienceGraphene Quantum DotExperimental ObservationQuantum Hall Effect	2005	13.2K
Model for a Quantum Hall Effect without Landau Levels: Condensed-Matter Realization of the "Parity Anomaly" F. D. M. Haldane Physical Review Letters Charge ExcitationsEngineeringLow-dimensional MagnetismQuantum Lattice SystemOne-dimensional Magnetism	1988	6.1K
The Band Theory of Graphite Philip R. Wallace Physical Review Materials ScienceGraphene NanomeshesEngineeringPhysicsNanoelectronics	1947	4.8K
Room-Temperature Quantum Hall Effect in Graphene Kostya S. Novoselov, Zhewei Jiang, Y. Zhang, Science	2007	3K
Intercalation compounds of graphite M. S. Dresselhaus, G. Dresselhaus Advances In Physics Materials ScienceMaterials EngineeringChemical EngineeringGraphene NanomeshesEngineering	2002	2.1K
Electronic properties of disordered two-dimensional carbon N. M. R. Peres, F. Guinea, A. H. Castro Neto Physical Review B Materials ScienceGraphene Magnetic SusceptibilityGraphene NanomeshesPoint DefectsEngineering	2006	1.4K
Unconventional Integer Quantum Hall Effect in Graphene V. P. Gusynin, S. G. Sharapov Physical Review Letters Materials ScienceQuantum ScienceSpintronicsGraphene NanomeshesEngineering	2005	1.3K
Diamagnetism of Graphite J. W. McClure Physical Review EngineeringMagnetic ResonanceConduction-electron Magnetic SusceptibilityGraphene NanomeshesMagnetism	1956	883
Quantum Hall Ferromagnetism in Graphene Kentaro Nomura, A. H. MacDonald Physical Review Letters	2006	801

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