Landau Level Splitting in Graphene in High Magnetic Fields

2); 3); H. L. Stormer (1; J. A. Jaszczak (4); J. D. Chudow (1); J. P. Small (1); M. Fazlollahi (1); M. S. Purewal (1); P. Kim (1); Y.-W. Tan (1)

arxiv: cond-mat/0602649 · v1 · submitted 2006-02-28 · ❄️ cond-mat.mes-hall · cond-mat.str-el

Landau Level Splitting in Graphene in High Magnetic Fields

Y. Zhang (1) , Z. Jiang (1 , 3) , J. P. Small (1) , M. S. Purewal (1) , Y.-W. Tan (1) , M. Fazlollahi (1) , J. D. Chudow (1)

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J. A. Jaszczak (4) H. L. Stormer (1 2) P. Kim (1)

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classification ❄️ cond-mat.mes-hall cond-mat.str-el

keywords landaulevelmagneticfieldsliftingdegeneracyeffectgraphene

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The quantum Hall (QH) effect in two-dimensional (2D) electrons and holes in high quality graphene samples is studied in strong magnetic fields up to 45 T. QH plateaus at filling factors $\nu=0,\pm 1,\pm 4$ are discovered at magnetic fields $B>$20 T, indicating the lifting of the four-fold degeneracy of the previously observed QH states at $\nu=\pm(|n|+1/2)$, where $n$ is the Landau level index. In particular, the presence of the $\nu=0, \pm 1$ QH plateaus indicates that the Landau level at the charge neutral Dirac point splits into four sublevels, lifting sublattice and spin degeneracy. The QH effect at $\nu=\pm 4$ is investigated in tilted magnetic field and can be attributed to lifting of the spin-degeneracy of the $n=1$ Landau level.

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Landau Level Splitting in Graphene in High Magnetic Fields

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