The Chip-Scale Atomic Clock - Recent Development Progress

R. Lutwak, D. Emmons, T. English, W. Riley, A. Duwel, M. Varghese, D. K. Serkland, G. M. Peake

Abstract: We have undertaken the development of a chip-scale atomic clock (CSAC) whose design goals include short-term stability, sy (t = 1 hour), of 1×10-11 with a total power consumption of 30 mW and an overall device volume of 1 cm3. The stringent power requirement dominates the physics package architecture, dictating a small (< 5 mm3 ) gaseous atomic ensemble interrogated by a low-power semiconductor laser. At PTTI 2002, we reported on initial experimental investigations leading to the decision to employ the coherent population trapping (CPT) interrogation technique. This paper describes our further progress on the CSAC effort, including the development of custom vertical cavity surface emitting laser (VCSEL) sources and techniques for microfabricating miniature cesium vapor cells comprised of anodically bonded silicon and glass. Measurements of the signal contrast and linewidth of both the cesium D1 and D2 resonance transitions are compared, and frequency stability measurements of the CSAC testbed are presented.
Published in: Proceedings of the 35th Annual Precise Time and Time Interval Systems and Applications Meeting
December 2 - 4, 2003
Hilton Resort on Mission Bay
San Diego, California
Pages: 467 - 478
Cite this article: Lutwak, R., Emmons, D., English, T., Riley, W., Duwel, A., Varghese, M., Serkland, D. K., Peake, G. M., "The Chip-Scale Atomic Clock - Recent Development Progress," Proceedings of the 35th Annual Precise Time and Time Interval Systems and Applications Meeting, San Diego, California, December 2003, pp. 467-478.
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