J. Stalnaker, S. Diddams, K. Kim, L. Hollberg, E. Donley, T. Heavner, S. Jefferts, F. Levi, T. Parker, J. Bergquist, W. Itano, M. Jensen, L. Lorini, W. Oskay, T. Fortier
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Absolute Optical Frequency Measurements with a Fractional Frequency Uncertainty at 1 × 10-15
We report the technical details specific to our recent measurements of the optical frequency of the mercury single-ion frequency standard in terms of the SI second as realized by the NIST-F1 cesium fountain clock. In these measurements the total fractional uncertainty is ap 10-15, limited by the statistical measurement uncertainty. In this paper we will address the techniques employed for the optical-to-microwave comparison itself, which had an estimated fractional uncertainty of ap 3 times 10-16, limited by the stability of the electronics used for the comparison
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