Free Space Optical Frequency Comparison Over Rapidly Moving Links

TL;DR

This paper presents a system capable of optical frequency comparison over rapidly moving links, overcoming Doppler shifts up to 19 MHz, enabling ground-to-space frequency comparisons with high stability.

Contribution

The authors demonstrate a novel optical frequency comparison system that tolerates large Doppler shifts using a high-bandwidth electro-optic modulator, advancing ground-to-space optical frequency transfer.

Findings

Achieved fractional frequency stability of 7E-18 at 5s

Demonstrated operation over a drone link with 15 m/s velocity

System can handle Doppler shifts up to 19 MHz

Abstract

The comparison of optical reference frequency signals over free-space optical links is limited by the relative motion between local and remote sites. For ground to low earth orbit comparison, the expected Doppler shift and Doppler rate typically reach 4 GHz at 100 MHz/s, which prevents the narrow-band detection required to compare optical frequencies at the highest levels of stability. We demonstrate a system capable of optical frequency comparison in the presence of these significant Doppler shifts, using an electro-optic phase modulator with an actuation bandwidth of 10 GHz, which will enable ground-to-space frequency comparison. This system was demonstrated over a retro-reflected drone link, with a maximum line-of-sight velocity of 15 m/s and Doppler shift of 19 MHz at a Doppler rate of 1 MHz/s. The best fractional frequency stability obtained was 7E-18 at an integration time of 5s. These results are an important step toward ground to low earth orbit optical frequency comparison, providing a scalable terrestrial test bed.