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W4283835555 abstract "The hybrid quantum system in which interactions between superconducting (SC) qubits and atomic qubits are mediated by an auxiliary cavity mode is a promising architecture for quantum information processing. However, compared to the strong coupling ${g}_{1}$ between the SC qubits and the cavity, the coupling ${g}_{2}$ between the atomic qubits and the cavity is often extremely weak, which limits the operation speed and suffers more from dissipations. Here we propose a built-in fault-tolerant geometric operation to speed up the generation of entanglement between SC qubits and atomic qubits only by linearly driving the qubits. The operation speed is proportional to $sqrt{{g}_{1}{g}_{2}}$ instead of the weaker coupling ${g}_{2}$. Comparing with traditional double-swap method, the speedup can reach around 10 times and the fidelity keeps high under current experimental parameters. This speedup technique can be used in various boson-mediated quantum platforms even if parametric driving or modulation of the boson mode is impossible, enabling exploration of fast quantum information processing." @default.
W4283835555 created "2022-07-07" @default.
W4283835555 creator A5019509335 @default.
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W4283835555 date "2022-07-06" @default.
W4283835555 modified "2023-10-17" @default.
W4283835555 title "Speedup of entanglement generation in hybrid quantum systems through linear driving" @default.
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W4283835555 doi "https://doi.org/10.1103/physreva.106.012407" @default.
W4283835555 hasPublicationYear "2022" @default.
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