Radio-frequency charge detection on graphene electron-hole double quantum dots

K. Hecker; S. Möller; H. Dulisch; Şiyar Duman; Leon Stecher; L. Valerius; Tobias Deußen; Saketh Ravuri; Kenji Watanabe; Takashi Taniguchi; Florian Libisch; Christian Völk; Christoph Stampfer

doi:10.48550/arxiv.2509.12061

Abstract

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High-fidelity detection of charge transitions in quantum dots (QDs) is a key ingredient in solid state quantum computation. We demonstrate high-bandwidth radio-frequency charge detection in bilayer graphene quantum dots (QDs) using a capacitively coupled quantum point contact (QPC). The device design suppresses screening effects and enables sensitive QPC-based charge readout. The QPC is arranged to maximize the readout contrast between two neighboring, coupled electron and hole QDs. We apply the readout scheme to a single-particle electron-hole double QD and demonstrate time-resolved detection of charge states as well as magnetic field dependent tunneling rates. This promises a high-fidelity readout scheme for individual spin and valley states, which is important for the operation of spin, valley or spin-valley qubits in bilayer graphene.

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Radio-frequency charge detection on graphene electron-hole double quantum dots

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