Observation of flat bands in tunable semiconductor artificial graphene

Ziyu Liu; Lingjie Du; Ken W. West; Saeed Fallahi; Loren Pfeiffer; Michael Manfra; Aron Pinczuk

Observation of flat bands in tunable semiconductor artificial graphene

ORAL

Abstract

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 realization of flat bands of AG in GaAs quantum well transistors where the electron density is tuned by applied back-gate voltages. Two new peaks in the low-temperature optical emission spectra are linked to the van-Hove singularity doublet of a pair of flat bands near M-points of AG. As the Fermi level is tuned to overlap the optical emission doublet, PL spectra display dramatic stability against changes in electron density that indicate interplays between key electron-electron interactions and the lattice with honeycomb symmetry [1].
[1] Physical Review Letters, submitted (2020)

March 16, 2021, 9:36 AM – March 16, 2021, 9:48 AM

Presenters

Ziyu Liu

Columbia University

Authors

Ziyu Liu

Columbia University
Lingjie Du

Nanjing University & Columbia University, Nanjing University
Ken W. West

Princeton University, Princeton Institute for the Science and Technology of Materials (PRISM), Princeton University, Department of Electrical Engineering, Princeton University, Electrical Engineering, Princeton, Electrical Engineering, Princeton University, Princeton
Saeed Fallahi

Purdue University, Purdue Univ
Loren Pfeiffer

Princeton University, Princeton Institute for the Science and Technology of Materials (PRISM), Princeton University, Department of Electrical Engineering, Princeton University, Electrical Engineering, Princeton, Electrical Engineering, Princeton University, Princeton
Michael Manfra

Purdue University, Purdue Univ, Department of Physics and Astronomy and Microsoft Quantum Purdue, Purdue University, West Lafayette, Indiana 47907 USA, Department of Physics and Astronomy and Station Q Purdue, Purdue University, Niels Bohr Institute, Microsoft Station Q, University of Copenhagen, Universitetsparken 5, 2100 Copenhagen, Denmark, Department of Physics and Astronomy, Purdue University, Birck Nanotechnology Center and Microsoft Quantum Purdue, Purdue University
Aron Pinczuk

Columbia University