Brillouin amplification supports 1×10-20 accuracy in optical frequency transfer over 1400~km of underground fibre

Abstract

We investigate optical frequency transfer over a 1400~km loop of underground fibre connecting Braunschweig and Strasbourg. Largely autonomous fibre Brillouin amplifiers (FBA) are the only means of intermediate amplification, allowing phase-continuous measurements over periods up to several days. Over a measurement period of about three weeks we find a weighted mean of the transferred frequency's fractional offset of (1.10.4)×10-20. In the best case we find an instability of 6.9×10-21 and a fractional frequency offset of 4.4×10-21 at an averaging time of around 30~000~s. These results represent an upper limit for the achievable uncertainty over 1400 km when using a chain of remote Brillouin amplifiers, and allow us to investigate systematic effects at the 10-20-level.