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arxiv: 1902.07649 · v1 · pith:3QZJGRL3new · submitted 2019-02-20 · ❄️ cond-mat.mes-hall · quant-ph

Optimized cavity-mediated dispersive two-qubit gates between spin qubits

classification ❄️ cond-mat.mes-hall quant-ph
keywords two-qubitcavitycavity-mediatedfidelitiesgategateshybridizationspin
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The recent realization of a coherent interface between a single electron in a silicon quantum dot and a single photon trapped in a superconducting cavity opens the way for implementing photon-mediated two-qubit entangling gates. In order to couple a spin to the cavity electric field some type of spin-charge hybridization is needed, which impacts spin control and coherence. In this work we propose a cavity-mediated two-qubit gate and calculate cavity-mediated entangling gate fidelities in the dispersive regime, accounting for errors due to the spin-charge hybridization, as well as photon- and phonon-induced decays. By optimizing the degree of spin-charge hybridization, we show that two-qubit gates mediated by cavity photons are capable of reaching fidelities exceeding 90% in present-day device architectures. High iSWAP gate fidelities are achievable even in the presence of charge noise at the level of $2\,\mu\text{eV}$.

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