Shubnikov-de Haas oscillations in the anomalous Hall conductivity of Chern insulators

The Haldane model on a honeycomb lattice is a paradigmatic example of a system featuring quantized Hall conductivity in the absence of an external magnetic field, that is, a quantum anomalous Hall effect. Recent theoretical work predicted that the anomalous Hall conductivity of massive Dirac fermion...

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Published inarXiv.org
Main Authors Canonico, Luis M, García, José H, Rappoport, Tatiana G, Ferreira, Aires, Muniz, R B
Format Paper Journal Article
LanguageEnglish
Published Ithaca Cornell University Library, arXiv.org 27.04.2018
Subjects
Conductivity
Dependence
Electron transport
Energy spectra
Fermions
Green's functions
Magnetic fields
Magnetic properties
Mathematical analysis
Mathematical models
Oscillations
Physics - Mesoscale and Nanoscale Physics
Quantum Hall effect
Topological insulators
Topology
Transport properties
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ISSN2331-8422
DOI10.48550/arxiv.1804.10668

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Abstract The Haldane model on a honeycomb lattice is a paradigmatic example of a system featuring quantized Hall conductivity in the absence of an external magnetic field, that is, a quantum anomalous Hall effect. Recent theoretical work predicted that the anomalous Hall conductivity of massive Dirac fermions can display Shubnikov-de Haas (SdH) oscillations, which could be observed in topological insulators and honeycomb layers with strong spin--orbit coupling. Here, we investigate the electronic transport properties of Chern insulators subject to high magnetic fields by means of accurate spectral expansions of lattice Green's functions. We find that the anomalous component of the Hall conductivity displays visible SdH oscillations at low temperature. \textcolor{black}{The effect is shown to result from the modulation of the next-nearest neighbour flux accumulation due to the Haldane term,} which removes the electron--hole symmetry from the Landau spectrum. To support our numerical findings, we derive a long-wavelength description beyond the linear ('Dirac cone') approximation. Finally, we discuss the dependence of the energy spectra shift for reversed magnetic fields with the topological gap and the lattice bandwidth.
AbstractList The Haldane model on a honeycomb lattice is a paradigmatic example of a system featuring quantized Hall conductivity in the absence of an external magnetic field, that is, a quantum anomalous Hall effect. Recent theoretical work predicted that the anomalous Hall conductivity of massive Dirac fermions can display Shubnikov-de Haas (SdH) oscillations, which could be observed in topological insulators and honeycomb layers with strong spin--orbit coupling. Here, we investigate the electronic transport properties of Chern insulators subject to high magnetic fields by means of accurate spectral expansions of lattice Green's functions. We find that the anomalous component of the Hall conductivity displays visible SdH oscillations at low temperature. \textcolor{black}{The effect is shown to result from the modulation of the next-nearest neighbour flux accumulation due to the Haldane term,} which removes the electron--hole symmetry from the Landau spectrum. To support our numerical findings, we derive a long-wavelength description beyond the linear ('Dirac cone') approximation. Finally, we discuss the dependence of the energy spectra shift for reversed magnetic fields with the topological gap and the lattice bandwidth.
Phys. Rev. B 98, 085409 (2018) The Haldane model on a honeycomb lattice is a paradigmatic example of a system featuring quantized Hall conductivity in the absence of an external magnetic field, that is, a quantum anomalous Hall effect. Recent theoretical work predicted that the anomalous Hall conductivity of massive Dirac fermions can display Shubnikov-de Haas (SdH) oscillations, which could be observed in topological insulators and honeycomb layers with strong spin--orbit coupling. Here, we investigate the electronic transport properties of Chern insulators subject to high magnetic fields by means of accurate spectral expansions of lattice Green's functions. We find that the anomalous component of the Hall conductivity displays visible SdH oscillations at low temperature. blackThe effect is shown to result from the modulation of the next-nearest neighbour flux accumulation due to the Haldane term, which removes the electron--hole symmetry from the Landau spectrum. To support our numerical findings, we derive a long-wavelength description beyond the linear ('Dirac cone') approximation. Finally, we discuss the dependence of the energy spectra shift for reversed magnetic fields with the topological gap and the lattice bandwidth.
Author García, José H
Muniz, R B
Rappoport, Tatiana G
Canonico, Luis M
Ferreira, Aires
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BackLink https://doi.org/10.1103/PhysRevB.98.085409$$DView published paper (Access to full text may be restricted)
https://doi.org/10.48550/arXiv.1804.10668$$DView paper in arXiv
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Snippet The Haldane model on a honeycomb lattice is a paradigmatic example of a system featuring quantized Hall conductivity in the absence of an external magnetic...
Phys. Rev. B 98, 085409 (2018) The Haldane model on a honeycomb lattice is a paradigmatic example of a system featuring quantized Hall conductivity in the...
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SubjectTerms Conductivity
Dependence
Electron transport
Energy spectra
Fermions
Green's functions
Magnetic fields
Magnetic properties
Mathematical analysis
Mathematical models
Oscillations
Physics - Mesoscale and Nanoscale Physics
Quantum Hall effect
Topological insulators
Topology
Transport properties
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Title Shubnikov-de Haas oscillations in the anomalous Hall conductivity of Chern insulators
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