Generation of a precise time scale assisted by a near-continuously operating optical lattice clock
Abstract
We report on a reduced time variation of a time scale with respect to Coordinated Universal Time (UTC) by steering a hydrogen-maser-based time scale with a near-continuously operating optical lattice clock. The time scale is generated in a post-processing analysis for 230 days with a hydrogen maser with its fractional frequency stability limited by a flicker floor of 2×10-15 and an Yb optical lattice clock operated with an uptime of 81.6 \%. During the 230-day period, the root mean square time variation of our time scale with respect to UTC is 0.52 ns, which is a better performance compared with those of time scales steered by microwave fountain clocks that exhibit root mean square variations from 0.99 ns to 1.6 ns. With the high uptime achieved by the Yb optical lattice clock, our simulation implies the potential of generating a state-of-the-art time scale with a time variation of <0.1 ns over a month using a better hydrogen maser reaching the mid 10-16 level. This work demonstrates that a use of an optical clock with a high uptime enhances the stability of a time scale.
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