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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Numerical eigenstates of three particles in a circular trap reveal scarred states and towers of states explained by an unstable classical trajectory.
A numerically optimized Rydberg blockade CZ gate for neutral atoms improves robustness to Rabi frequency variations by nearly an order of magnitude and works with individual laser addressing at finite temperatures.
citing papers explorer
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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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Quantum scar affecting the motion of three interacting particles in a circular trap
Numerical eigenstates of three particles in a circular trap reveal scarred states and towers of states explained by an unstable classical trajectory.
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Numerically optimized amplitude-robust controlled-Z gate for ultracold neutral atoms with individual addressing capability
A numerically optimized Rydberg blockade CZ gate for neutral atoms improves robustness to Rabi frequency variations by nearly an order of magnitude and works with individual laser addressing at finite temperatures.