Randomized benchmarking of single qubit gates in a 2D array of neutral atom qubits

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 ar...

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Veröffentlicht in:	arXiv.org 2015-02
Hauptverfasser:	Xia, T, Lichtman, M, Maller, K, Carr, A W, Piotrowicz, M J, Isenhower, L, Saffman, M
Format:	Artikel
Sprache:	eng
Schlagworte:	Arrays Benchmarks Crosstalk Gates Laser beams Microwaves Physics - Atomic Physics Physics - Quantum Physics Randomization
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creator	Xia, T Lichtman, M Maller, K Carr, A W Piotrowicz, M J Isenhower, L Saffman, M
description	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 $0.002(9)$.
doi_str_mv	10.48550/arxiv.1501.02041
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subjects	Arrays Benchmarks Crosstalk Gates Laser beams Microwaves Physics - Atomic Physics Physics - Quantum Physics Randomization
title	Randomized benchmarking of single qubit gates in a 2D array of neutral atom qubits
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