A counterdiabatic symmetric Rydberg-blockade CZ gate scheme for neutral atoms that reduces operation time versus prior adiabatic protocols, provides analytical pulse profiles, and avoids intrinsic single-qubit phase shifts in single-photon excitation.
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Global phase modulation of a Rydberg laser combined with optimal control enables high-fidelity multi-qubit parity gates in neutral atoms across equidistant and inhomogeneous configurations.
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Symmetric $C_Z$ gate for ultracold neutral atoms based on counterdiabatic driving at Rydberg excitation
A counterdiabatic symmetric Rydberg-blockade CZ gate scheme for neutral atoms that reduces operation time versus prior adiabatic protocols, provides analytical pulse profiles, and avoids intrinsic single-qubit phase shifts in single-photon excitation.
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Multi-Qubit Parity Gates for Rydberg Atoms in Various Configurations
Global phase modulation of a Rydberg laser combined with optimal control enables high-fidelity multi-qubit parity gates in neutral atoms across equidistant and inhomogeneous configurations.