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Spin–orbit-coupled fermions in an optical lattice clock

Author

Listed:
  • S. Kolkowitz

    (JILA, NIST and University of Colorado, University of Colorado)

  • S. L. Bromley

    (JILA, NIST and University of Colorado, University of Colorado)

  • T. Bothwell

    (JILA, NIST and University of Colorado, University of Colorado)

  • M. L. Wall

    (JILA, NIST and University of Colorado, University of Colorado
    †Present addresses: The Johns Hopkins Applied Physics Laboratory, Laurel, Maryland 20723, USA (M.L.W.); International Center for Quantum Materials, School of Physics, Peking University, Beijing 100871, China (X.Z.).)

  • G. E. Marti

    (JILA, NIST and University of Colorado, University of Colorado)

  • A. P. Koller

    (JILA, NIST and University of Colorado, University of Colorado)

  • X. Zhang

    (JILA, NIST and University of Colorado, University of Colorado
    †Present addresses: The Johns Hopkins Applied Physics Laboratory, Laurel, Maryland 20723, USA (M.L.W.); International Center for Quantum Materials, School of Physics, Peking University, Beijing 100871, China (X.Z.).)

  • A. M. Rey

    (JILA, NIST and University of Colorado, University of Colorado)

  • J. Ye

    (JILA, NIST and University of Colorado, University of Colorado)

Abstract

Spin–orbit coupling is implemented in an optical lattice clock using a narrow optical transition in fermionic 87Sr atoms, thus mitigating the heating problems of previous experiments with alkali atoms and offering new prospects for future investigations.

Suggested Citation

  • S. Kolkowitz & S. L. Bromley & T. Bothwell & M. L. Wall & G. E. Marti & A. P. Koller & X. Zhang & A. M. Rey & J. Ye, 2017. "Spin–orbit-coupled fermions in an optical lattice clock," Nature, Nature, vol. 542(7639), pages 66-70, February.
  • Handle: RePEc:nat:nature:v:542:y:2017:i:7639:d:10.1038_nature20811
    DOI: 10.1038/nature20811
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    Cited by:

    1. Tao Chen & Chenxi Huang & Ivan Velkovsky & Kaden R. A. Hazzard & Jacob P. Covey & Bryce Gadway, 2024. "Strongly interacting Rydberg atoms in synthetic dimensions with a magnetic flux," Nature Communications, Nature, vol. 15(1), pages 1-8, December.
    2. S. K. Kanungo & J. D. Whalen & Y. Lu & M. Yuan & S. Dasgupta & F. B. Dunning & K. R. A. Hazzard & T. C. Killian, 2022. "Realizing topological edge states with Rydberg-atom synthetic dimensions," Nature Communications, Nature, vol. 13(1), pages 1-9, December.
    3. Yuqing Li & Huiying Du & Yunfei Wang & Junjun Liang & Liantuan Xiao & Wei Yi & Jie Ma & Suotang Jia, 2023. "Observation of frustrated chiral dynamics in an interacting triangular flux ladder," Nature Communications, Nature, vol. 14(1), pages 1-7, December.

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