Spin–orbit-coupled fermions in an optical lattice clock

Kolkowitz, S.; Bromley, S. L.; Bothwell, T.; Wall, M. L.; Marti, G. E.; Koller, A. P.; Zhang, X.; Rey, A. M.; Ye, J.

Spin–orbit-coupled fermions in an optical lattice clock

S. Kolkowitz (), S. L. Bromley (), T. Bothwell, M. L. Wall, G. E. Marti, A. P. Koller, X. Zhang, A. M. Rey and J. Ye
Additional contact information
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
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
A. M. Rey: JILA, NIST and University of Colorado, University of Colorado
J. Ye: JILA, NIST and University of Colorado, University of Colorado

Nature, 2017, vol. 542, issue 7639, 66-70

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.

Date: 2017
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DOI: 10.1038/nature20811

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