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Paper detail

Temperature shift suppression scheme for two-photon two-color rubidium vapor clocks

We propose a new scheme for interrogating a warm rubidium vapor using two different clock lasers. Performance-wise, this approach is distinctly different from the recently proposed two-color two-photon rubidium clocks as our scheme does not trade off the AC Stark suppression against an increased sensitivity to the cell-temperature/pressure. Instead, our approach compensates all, the AC-Stark shift and the temperature & pressure-induced frequency shifts. The proposed scheme also makes use of the modulation transfer technique, which enables a two-orders of magnitude increase in the signal-to-noise ratio compared to traditional clocks that rely on fluorescence measurements.

preprint2022arXivOpen access
Tin Nghia NguyenThomas R. Schibli
physics.atom-ph
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Tin Nghia NguyenThomas R. Schibli

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