Performance of a prototype atomic clock based on lin‖lin coherent population trapping resonances in Rb atomic vapor

Eugeniy E. Mikhailov; Travis Horrom; Nathan Belcher; Irina Novikova

doi:10.1364/JOSAB.27.000417

Journal of the Optical Society of America B
Vol. 27,
Issue 3,
pp. 417-422
(2010)
•https://doi.org/10.1364/JOSAB.27.000417

Performance of a prototype atomic clock based on $lin ‖ lin$ coherent population trapping resonances in Rb atomic vapor

Eugeniy E. Mikhailov, Travis Horrom, Nathan Belcher, and Irina Novikova

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Eugeniy E. Mikhailov, Travis Horrom, Nathan Belcher, and Irina Novikova, "Performance of a prototype atomic clock based on lin‖lin coherent population trapping resonances in Rb atomic vapor," J. Opt. Soc. Am. B 27, 417-422 (2010)

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- Atomic and Molecular Physics
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About this Article
History
- Original Manuscript: November 2, 2009
- Revised Manuscript: December 1, 2009
- Manuscript Accepted: December 2, 2009
- Published: February 4, 2010

Abstract

We report on the performance of the first table-top prototype atomic clock based on coherent population trapping (CPT) resonances with parallel linearly polarized optical fields ( $lin ‖ lin$ configuration). Our apparatus uses a vertical-cavity surface-emitting laser (VCSEL) tuned to the $D_{1}$ line of ${}^{87}{Rb}$ with the current modulation at the ${}^{87}{Rb}$ hyperfine frequency. We demonstrate cancellation of the first-order light shift by the proper choice of rf modulation power and further improve our prototype clock stability by optimizing the parameters of the microwave lock loop. Operating in these optimal conditions, we measured a short-term fractional frequency stability (Allan deviation) $2 \times 10^{- 11} τ^{- 1 ∕ 2}$ for observation times $1 s ⩽ τ ⩽ 20 s$ . This value is limited by large VCSEL phase noise and environmental temperature fluctuation. Further improvements in frequency stability should be possible with an apparatus designed as a dedicated $lin ‖ lin$ CPT resonance clock with environmental impacts minimized.

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Journal of the Optical Society of America B