Michael L. Dennis scite author profile

We demonstrate real-time, femtosecond-level clock synchronization across a low-lying, strongly turbulent, 12-km horizontal air path by optical two-way time transfer. For this long horizontal free-space path, the integrated turbulence extends well into the strong turbulence regime corresponding to multiple scattering with a Rytov variance up to 7 and with the number of signal interruptions exceeding 100 per second. Nevertheless, optical two-way time transfer is used to synchronize a remote clock to a master clock with femtosecond-level agreement and with a relative time deviation dropping as low as a few hundred attoseconds. Synchronization is shown for a remote clock based on either an optical or microwave oscillator and using either tip-tilt or adaptive-optics free-space optical terminals. The performance is unaltered from optical two-way time transfer in weak turbulence across short links. These results confirm that the two-way reciprocity of the free-space time-of-flight is maintained both under strong turbulence and with the use of adaptive optics. The demonstrated robustness of optical two-way time transfer against strong turbulence and its compatibility with adaptive optics is encouraging for future femtosecond clock synchronization over very long distance ground-to-air free-space paths.

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A Phase-Modulation I/Q-Demodulation Microwave-to-Digital Photonic Link

Clark

O'Connor

Dennis

2010

IEEE Trans. Microwave Theory Techn.

114

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Michael L. Dennis

Experimental study of sideband generation in femtosecond fiber lasers

Radio-Over-Fiber Technologies for Emerging Wireless Systems

Coherent Optical Phase-Modulation Link

Synchronization of clocks through 12 km of strongly turbulent air over a city

A Phase-Modulation I/Q-Demodulation Microwave-to-Digital Photonic Link

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