600 km repeater-like quantum communications with dual-band stabilisation.

Twin-field (TF) quantum key distribution (QKD) could fundamentally alter the rate-distance relationship of QKD, offering the scaling of a single-node quantum repeater. Although recent experiments have demonstrated the potential of TF-QKD, formidable challenges remain for its real world use. In particular, new methods are needed to extend both the distance beyond 500 km and key rates above current milli-bit per second values. Previous demonstrations have required intense stabilisation signals at the same wavelength as the quantum channel, thereby unavoidably generating noise due to Rayleigh scattering that limits the distance and bit rate. Here, we introduce a novel dual band stabilisation scheme based on wavelength division multiplexing that allows us to circumvent past limitations. An intense stabilisation signal that is spectrally isolated from the quantum channel is used to reduce the phase drift by three orders of magnitude, while a second, much weaker reference at the quantum wavelength locks the channel phase to a predetermined value. With this strategy, we realise a low noise implementation suitable for all the variants of TF-QKD protocols proposed so far and capable of generating real strings of bits for the first time. The setup provides repeater-like key rates over record communication distances of 555 km and 605 km in the finite-size and asymptotic regimes, respectively, and increases the secure key rate at long distance by two orders of magnitude to values of practical significance.