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  • Title: Charge Oscillations in Bilayer Graphene Quantum Confinement Devices.
    Author: Fu H, Huang K, Watanabe K, Taniguchi T, Zhu J.
    Journal: Nano Lett; 2023 Nov 08; 23(21):9726-9732. PubMed ID: 37862439.
    Abstract:
    Quantum confinement structures are building blocks of quantum devices in fundamental physics exploration and technological applications. In this work, we fabricate dual-gated bilayer graphene Fabry-Pérot quantum Hall interferometers employing two different gating strategies and conduct finite element simulations to understand the electrostatics of the confinement structures and to guide device design and fabrication. We observe two types of resistance oscillations arising from the charging of quantum dots formed inside the interferometers. We obtain the size, location, and charging energy of the dots by measuring the dependence of the oscillations on the magnetic field, gate voltages, and dc bias. We analyze and discuss the origin of the quantum dots and their impact on quantum Hall edge state backscattering and interference. Insights gained in these studies shed light on the construction of van der Waals quantum confinement devices.
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