Observation of Flat Bands in Gated Semiconductor Artificial Graphene

Observation of Flat Bands in Gated Semiconductor Artificial Graphene

Flat bands near M points in the Brillouin zone are key features of honeycomb symmetry in artificial graphene (AG) where electrons may condense into novel correlated phases. Here we report the observation of van Hove singularity doublet of AG in GaAs quantum well transistors, which presents the evide...

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Veröffentlicht in:Physical review letters 2021-03, Vol.126 (10), p.106402-106402, Article 106402
Hauptverfasser: Du, Lingjie, Liu, Ziyu, Wind, Shalom J, Pellegrini, Vittorio, West, Ken W, Fallahi, Saeed, Pfeiffer, Loren N, Manfra, Michael J, Pinczuk, Aron
Format: Artikel
Sprache:eng
Schlagworte:
Brillouin zones
CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY
Electron density
Electrons
Fermi level
Graphene
Honeycomb lattice
Photoluminescence
Physics
Quantum wells
Singularities
Symmetry
Transistors
Two-dimensional electron gas
van Hove singularity
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Zusammenfassung:Flat bands near M points in the Brillouin zone are key features of honeycomb symmetry in artificial graphene (AG) where electrons may condense into novel correlated phases. Here we report the observation of van Hove singularity doublet of AG in GaAs quantum well transistors, which presents the evidence of flat bands in semiconductor AG. Two emerging peaks in photoluminescence spectra tuned by backgate voltages probe the singularity doublet of AG flat bands and demonstrate their accessibility to the Fermi level. As the Fermi level crosses the doublet, the spectra display dramatic stability against electron density, indicating interplays between electron-electron interactions and honeycomb symmetry. Our results provide a new flexible platform to explore intriguing flat band physics.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.126.106402