A capacitively shunted double-transmon coupler enables a 99.92% fidelity parametrically driven iSWAP gate at zero flux between detuned transmons with minimal residual ZZ interaction.
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2026 2verdicts
UNVERDICTED 2representative citing papers
Asymmetric coupling of a detuned giant-molecule to parallel waveguides produces tunable doublet resonances and deterministic single-photon routing via interference, with retardation effects driving regime transitions and multiple avoided crossings.
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Parametrically Driven iSWAP Gate Using a Capacitively Shunted Double-Transmon Coupler at the Zero-Flux Sweet Spot
A capacitively shunted double-transmon coupler enables a 99.92% fidelity parametrically driven iSWAP gate at zero flux between detuned transmons with minimal residual ZZ interaction.
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Single-photon scattering by a giant molecule asymmetrically coupled to parallel waveguides
Asymmetric coupling of a detuned giant-molecule to parallel waveguides produces tunable doublet resonances and deterministic single-photon routing via interference, with retardation effects driving regime transitions and multiple avoided crossings.