Towards quantum logic spectroscopy of multi-ion arrays
ORAL
Abstract
We describe a new approach for precision spectroscopy of trapped ions using quantum logic. Our approach adapts method developed in the context of quantum information processing to non-destructive detection of the 1S0-3P0 clock transition in 27Al+. A state-dependent force is employed on the spectroscopy ion(s) to modulate the qubit state of the detection ion(s), similar to the techniques employed for high-fidelity quantum gates[1,2] and sensitive force detection experiments [3,4]. This method does not require ground state cooling and would enable scaling to large numbers of spectroscopy ions to improve ion clock stability.
[1] P. C. Haljan et al., Phys. Rev. Lett. 94, 153602 (2005).
[2] D. Leibfried et al., Nature 422, 412 (2003).
[3] C. Hempel et al., Nature Photon. 7, 630 (2013).
[4] K. A. Gilmore et al., Phys. Rev. Lett. 118, 263602 (2017).
[1] P. C. Haljan et al., Phys. Rev. Lett. 94, 153602 (2005).
[2] D. Leibfried et al., Nature 422, 412 (2003).
[3] C. Hempel et al., Nature Photon. 7, 630 (2013).
[4] K. A. Gilmore et al., Phys. Rev. Lett. 118, 263602 (2017).
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Presenters
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Kaifeng Cui
PML, National Institute of Standards and Technology Boulder, National Institute of Standards and Technology Boulder
Authors
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Kaifeng Cui
PML, National Institute of Standards and Technology Boulder, National Institute of Standards and Technology Boulder
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Kevin T Boyce
PML, National Institute of Standards and Technology Boulder
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David Leibrandt
National Institute of Standards and Technology, PML, National Institute of Standards and Technology Boulder, Time and Frequency Division, NIST, Boulder, National Institute of Standards and Technology Boulder
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David B Hume
National Institute of Standards and Technology, PML, National Institute of Standards and Technology Boulder, National Institute of Standards and Technology Boulder