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SI-traceable measurement of an optical frequency at low $10^{-16}$ level without a local primary standard

arXiv:1704.00893 · doi:10.1364/OE.25.008511

Abstract

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 $^{87}$Sr lattice clock transition, we have reduced this uncertainty to low $10^{-16}$ level by averaging three sets of ten-day intermittent measurements, in which we operated the lattice clock for $10^4$ 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 $4.3\times10^{-16}$ agrees with other measurements based on local state-of-the-art cesium fountains.

14 pages, 5 figures