Helios achieves 98 qubits with single-qubit gate infidelity 2.5(1)×10^{-5}, two-qubit 7.9(2)×10^{-4}, and SPAM 4.8(6)×10^{-4}, enabling circuits beyond classical simulation.
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Singly-ionized yttrium (89Y+) is positioned as a trapped-ion qubit with nuclear-spin storage, metastable manifolds, and isolated transitions for initialization, readout, and gates.
Bichromatic tweezers with selected wavelengths and intensity ratio suppress differential AC Stark shifts in ⁸⁷Sr ³P₂, creating scalar and tensor magic conditions for qudit encoding.
citing papers explorer
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Helios: A 98-qubit trapped-ion quantum computer
Helios achieves 98 qubits with single-qubit gate infidelity 2.5(1)×10^{-5}, two-qubit 7.9(2)×10^{-4}, and SPAM 4.8(6)×10^{-4}, enabling circuits beyond classical simulation.
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Yttrium ion as a platform for quantum information processing
Singly-ionized yttrium (89Y+) is positioned as a trapped-ion qubit with nuclear-spin storage, metastable manifolds, and isolated transitions for initialization, readout, and gates.
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Bichromatic Tweezers for Qudit Quantum Computing in ${}^{87}$Sr
Bichromatic tweezers with selected wavelengths and intensity ratio suppress differential AC Stark shifts in ⁸⁷Sr ³P₂, creating scalar and tensor magic conditions for qudit encoding.