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  • Title: Gate-reflectometry dispersive readout and coherent control of a spin qubit in silicon.
    Author: Crippa A, Ezzouch R, Aprá A, Amisse A, Laviéville R, Hutin L, Bertrand B, Vinet M, Urdampilleta M, Meunier T, Sanquer M, Jehl X, Maurand R, De Franceschi S.
    Journal: Nat Commun; 2019 Jul 03; 10(1):2776. PubMed ID: 31270319.
    Abstract:
    Silicon spin qubits have emerged as a promising path to large-scale quantum processors. In this prospect, the development of scalable qubit readout schemes involving a minimal device overhead is a compelling step. Here we report the implementation of gate-coupled rf reflectometry for the dispersive readout of a fully functional spin qubit device. We use a p-type double-gate transistor made using industry-standard silicon technology. The first gate confines a hole quantum dot encoding the spin qubit, the second one a helper dot enabling readout. The qubit state is measured through the phase response of a lumped-element resonator to spin-selective interdot tunneling. The demonstrated qubit readout scheme requires no coupling to a Fermi reservoir, thereby offering a compact and potentially scalable solution whose operation may be extended above 1 K.
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