Impulsive spin-dependent excitation enables high-fidelity non-local entangling gates between arbitrary ion pairs in chains of up to 40 trapped ions within 1.3-2 center-of-mass oscillation periods.
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Engineering method using dynamic circuits to generate randomized algorithm distributions on quantum hardware, achieving 14000x speedup for Pauli measurements and enabling 10M-circuit classical shadows on 28-40 qubit hydrogen models.
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High-speed and high-connectivity two-qubit gates in long chains of trapped ions
Impulsive spin-dependent excitation enables high-fidelity non-local entangling gates between arbitrary ion pairs in chains of up to 40 trapped ions within 1.3-2 center-of-mass oscillation periods.
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Efficient implementation of randomized quantum algorithms with dynamic circuits
Engineering method using dynamic circuits to generate randomized algorithm distributions on quantum hardware, achieving 14000x speedup for Pauli measurements and enabling 10M-circuit classical shadows on 28-40 qubit hydrogen models.