SI-traceable measurement of an optical frequency at the low 10 level without a local primary standard.

SI-traceable measurements of optical frequencies using International Atomic Time (TAI) do not require a local primary frequency reference, but suffer from an uncertainty in tracing to the SI second. For the measurement of the Sr lattice clock transition, we have reduced this uncertainty to the low 10 level by averaging three sets of ten-day intermittent measurements, in which we operated the lattice clock for 10 s on each day. Moreover, a combined oscillator of two hydrogen masers was employed as a local flywheel oscillator (LFO) in order to mitigate the impact of sporadic excursion of LFO frequency. The resultant absolute frequency with fractional uncertainty of 4.3 × 10 agrees with other measurements based on local state-of-the-art cesium fountains.