High-order fractal states in graphene superlattices

High-order fractal states in graphene superlattices

Graphene superlattices were shown to exhibit high-temperature quantum oscillations due to periodic emergence of delocalized Bloch states in high magnetic fields such that unit fractions of the flux quantum pierce a superlattice unit cell. Under these conditions, semiclassical electron trajectories b...

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Veröffentlicht in:Proceedings of the National Academy of Sciences - PNAS 2018-05, Vol.115 (20), p.5135-5139
Hauptverfasser: Kumar, R. Krishna, Mishchenko, A., Chen, X., Pezzini, S., Auton, G. H., Ponomarenko, L. A., Zeitler, U., Eaves, L., Fal’ko, V. I., Geim, A. K.
Format: Artikel
Sprache:eng
Schlagworte:
Carbon
Crystal lattices
Electron trajectories
Fractals
Graphene
Magnetic fields
Magnetism
Oscillations
Physical Sciences
Qualitative analysis
Superlattices
Unit cell
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Zusammenfassung:Graphene superlattices were shown to exhibit high-temperature quantum oscillations due to periodic emergence of delocalized Bloch states in high magnetic fields such that unit fractions of the flux quantum pierce a superlattice unit cell. Under these conditions, semiclassical electron trajectories become straight again, similar to the case of zero magnetic field. Here, we report magnetotransport measurements that reveal second-, third-, and fourth-order magnetic Bloch states at high electron densities and temperatures above 100 K. The recurrence of these states creates a fractal pattern intimately related to the origin of Hofstadter butterflies. The hierarchy of the fractal states is determined by the width of magnetic minibands, in qualitative agreement with our band-structure calculations.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.1804572115