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Randomized Benchmarking of Single-Qubit Gates in a 2D Array of Neutral-Atom Qubits

PHYSICAL REVIEW LETTERS (2015)

Journal

PHYSICAL REVIEW LETTERS

Volume 114, Issue 10, Pages -

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AMER PHYSICAL SOC

DOI: 10.1103/PhysRevLett.114.100503

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IARPA MQCO program through ARO Contract [W911NF-10-1-0347]

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Abstract

We characterize single-qubit Clifford gate operations with randomized benchmarking in a 2D array of neutral-atom qubits and demonstrate global and site selected gates with high fidelity. An average fidelity of F-2 = 0.9983(14) is measured for global microwave-driven gates applied to a 49-qubit array. Single-site gates are implemented with a focused laser beam to Stark shift the microwaves into resonance at a selected site. At Stark selected single sites we observe F-2 = 0.9923(7) and an average spin-flip crosstalk error at other sites of 0.002(9).

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Randomized Benchmarking of Single-Qubit Gates in a 2D Array of Neutral-Atom Qubits

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PHYSICAL REVIEW LETTERS

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AMER PHYSICAL SOC

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Randomized Benchmarking of Single-Qubit Gates in a 2D Array of Neutral-Atom Qubits

Journal

PHYSICAL REVIEW LETTERS

Publisher

AMER PHYSICAL SOC

Keywords

Categories

Funding

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