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High-fidelity two-qubit gates using a MEMS-based beam steering system for individual qubit addressing

Publication ,  Conference
Wang, Y; Crain, S; Fang, C; Zhang, B; Leung, PH; Huang, S; Liang, Q; Brown, KR; Kim, J
Published in: Optics InfoBase Conference Papers
January 1, 2020

We realize and characterize high fidelity Mølmer-Sørensen gates in chains of up to four 171Yb+ ions using radial modes. The individual qubits are controlled by two addressing beams, which are steered using micro-fabricated tilting mirrors.

Duke Scholars

Published In

Optics InfoBase Conference Papers

EISSN

2162-2701

Publication Date

January 1, 2020
 

Citation

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Wang, Y., Crain, S., Fang, C., Zhang, B., Leung, P. H., Huang, S., … Kim, J. (2020). High-fidelity two-qubit gates using a MEMS-based beam steering system for individual qubit addressing. In Optics InfoBase Conference Papers.
Wang, Y., S. Crain, C. Fang, B. Zhang, P. H. Leung, S. Huang, Q. Liang, K. R. Brown, and J. Kim. “High-fidelity two-qubit gates using a MEMS-based beam steering system for individual qubit addressing.” In Optics InfoBase Conference Papers, 2020.
Wang Y, Crain S, Fang C, Zhang B, Leung PH, Huang S, et al. High-fidelity two-qubit gates using a MEMS-based beam steering system for individual qubit addressing. In: Optics InfoBase Conference Papers. 2020.
Wang Y, Crain S, Fang C, Zhang B, Leung PH, Huang S, Liang Q, Brown KR, Kim J. High-fidelity two-qubit gates using a MEMS-based beam steering system for individual qubit addressing. Optics InfoBase Conference Papers. 2020.

Published In

Optics InfoBase Conference Papers

EISSN

2162-2701

Publication Date

January 1, 2020