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Electrostatically confined quantum dots in bilayer graphene have shown potential as building blocks for quantum technologies. To operate the dots, e.g., as qubits, a precise understanding and control of the confined states and their properties is required. Herein, a large‐scale numerical characterization of confined quantum states in bilayer graphene dots is performed over an extensive range of gate‐tunable...
Electrostatically confined quantum dots in bilayer graphene have shown potential as building blocks for quantum technologies. Operating the dots, e.g., as qubits, requires a precise understanding and control of the confined states and their properties. In article number 2300395, Dennis Mayer and Angelika Knothe perform large‐scale numerical characterization of confined quantum states in bilayer graphene...
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