Optical Atomic Clock Comparison through Turbulent Air

Beloy, Kyle; Bodine, Martha I.; Bothwell, Tobias; Brewer, Samuel M.; Bromley, Sarah L.; Chen, Jwo-Sy; Deschênes, Jean-Daniel; Diddams, Scott A.; Fasano, Robert J.; Fortier, Tara M.; Hassan, Youssef S.; Hume, David B.; Kedar, Dhruv; Kennedy, Colin J.; Khader, Isaac H.; Koepke, Amanda; Leibrandt, David R.; Leopardi, Holly; Ludlow, Andrew D.; McGrew, William F.; Milner, William R.; Newbury, Nathan R.; Nicolodi, Daniele; Oelker, Eric; Parker, Thomas E.; Robinson, John M.; Romish, Stefania; Schäffer, Stefan A.; Sherman, Jeffrey A.; Sinclair, Laura C.; Sonderhouse, Lindsay; Swann, William C.; Yao, Jian; Ye, Jun; Zhang, Xiaogang

Optical Atomic Clock Comparison through Turbulent Air

Abstract

We use frequency comb-based optical two-way time-frequency transfer (O-TWTFT) to measure the optical frequency ratio of state-of-the-art ytterbium and strontium optical atomic clocks separated by a 1.5 km open-air link. Our free-space measurement is compared to a simultaneous measurement acquired via a noise-cancelled fiber link. Despite non-stationary, ps-level time-of-flight variations in the free-space link, ratio measurements obtained from the two links, averaged over 30.5 hours across six days, agree to

6\times10^{-19}

, showing that O-TWTFT can support free-space atomic clock comparisons below the

10^{-18}

level

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Last time updated on 13/08/2024