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Main Authors: Zakharov, V. A., Bozkurt, A. Mert, Akhmerov, A. R., Oriekhov, D. O.
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2303.07447
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author Zakharov, V. A.
Bozkurt, A. Mert
Akhmerov, A. R.
Oriekhov, D. O.
author_facet Zakharov, V. A.
Bozkurt, A. Mert
Akhmerov, A. R.
Oriekhov, D. O.
contents We develop a theory of magnetic breakdown (MB) near high-order saddle points in the dispersions of two-dimensional materials, where two or more semiclassical cyclotron orbits approach each other. MB occurs due to quantum tunneling between several trajectories, which leads to non-trivial scattering amplitudes and phases. We show that for any saddle point this problem can be solved by mapping it to a scattering problem in a 1D tight-binding chain. Moreover, the occurrence of magnetic breakdown on the edges of the Brillouin zone facilitates the delocalization of the bulk Landau level states and the formation of 2D orbit networks. These extended network states compose dispersive mini-bands with finite energy broadening. This effect can be observed in transport experiments as a strong enhancement of the longitudinal bulk conductance in a quantum Hall bar. In addition, it may be probed in STM experiments by visualizing bulk current patterns.
format Preprint
id arxiv_https___arxiv_org_abs_2303_07447
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Landau quantization near generalized Van Hove singularities: Magnetic breakdown and orbit networks
Zakharov, V. A.
Bozkurt, A. Mert
Akhmerov, A. R.
Oriekhov, D. O.
Mesoscale and Nanoscale Physics
We develop a theory of magnetic breakdown (MB) near high-order saddle points in the dispersions of two-dimensional materials, where two or more semiclassical cyclotron orbits approach each other. MB occurs due to quantum tunneling between several trajectories, which leads to non-trivial scattering amplitudes and phases. We show that for any saddle point this problem can be solved by mapping it to a scattering problem in a 1D tight-binding chain. Moreover, the occurrence of magnetic breakdown on the edges of the Brillouin zone facilitates the delocalization of the bulk Landau level states and the formation of 2D orbit networks. These extended network states compose dispersive mini-bands with finite energy broadening. This effect can be observed in transport experiments as a strong enhancement of the longitudinal bulk conductance in a quantum Hall bar. In addition, it may be probed in STM experiments by visualizing bulk current patterns.
title Landau quantization near generalized Van Hove singularities: Magnetic breakdown and orbit networks
topic Mesoscale and Nanoscale Physics
url https://arxiv.org/abs/2303.07447