Femtosecond-level time transfer enabled by low-loss integrated photonics

Abijith S. Kowligy; Jonathan D. Roslund; William Lunden; Franklin Roller; Martin M. Boyd; Jamil Abo-Shaeer; Arman Cingoz; Emily D. Caldwell; Nathan R. Newbury; Laura C. Sinclair; Benjamin K. Stuhl; William C. Swann; Jean-Daniel Deschenes

doi:10.1364/FIO.2023.FTh1B.3

Frontiers in Optics + Laser Science 2023 (FiO, LS)
Technical Digest Series (Optica Publishing Group, 2023),
paper FTh1B.3
•https://doi.org/10.1364/FIO.2023.FTh1B.3

Femtosecond-level time transfer enabled by low-loss integrated photonics

Abijith S. Kowligy, Jonathan D. Roslund, William Lunden, Franklin Roller, Martin M. Boyd, Jamil Abo-Shaeer, Arman Cingoz, Emily D. Caldwell, Nathan R. Newbury, Laura C. Sinclair, Benjamin K. Stuhl, William C. Swann, and Jean-Daniel Deschenes

Frontiers in Optics 2023

Tacoma, Washington United States
9–12 October 2023
ISBN: 978-1-957171-29-6

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Quantum Networking and Metrology (FTh1B)

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A. S. Kowligy, J. D. Roslund, W. Lunden, F. Roller, M. M. Boyd, J. Abo-Shaeer, A. Cingoz, E. D. Caldwell, N. R. Newbury, L. C. Sinclair, B. K. Stuhl, W. C. Swann, and J. Deschenes, "Femtosecond-level time transfer enabled by low-loss integrated photonics," in Frontiers in Optics + Laser Science 2023 (FiO, LS), Technical Digest Series (Optica Publishing Group, 2023), paper FTh1B.3.

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Abstract

A pair of optical frequency comb-based transceivers employing photonic-chip based heterodyne detection were evaluated for two-way time transfer over a 30-km freespace link, demonstrating frequency instability < 3 × 10^-18 at 2×10³ s with ∼6 pW of received power.

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