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New-generation of cryogenic sapphire microwave oscillators for space, metrology, and scientific applications

This article reports on the characterization of cryogenic sapphire oscillators (CSOs), and on the first test of a CSO in a real field installation, where ultimate frequency stability and continuous operation are critical issues, with no survey. Thanks to low-vibration liquid-He cryocooler design, In...

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Bibliographic Details
Published in:Review of scientific instruments 2012-08, Vol.83 (8), p.085113-085113
Main Authors: Giordano, Vincent, Grop, Serge, Dubois, Benoît, Bourgeois, Pierre-Yves, Kersalé, Yann, Haye, Gregory, Dolgovskiy, Vladimir, Bucalovic, Nikola, Di Domenico, Gianni, Schilt, Stéphane, Chauvin, Jacques, Valat, David, Rubiola, Enrico
Format: Article
Language:English
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Summary:This article reports on the characterization of cryogenic sapphire oscillators (CSOs), and on the first test of a CSO in a real field installation, where ultimate frequency stability and continuous operation are critical issues, with no survey. Thanks to low-vibration liquid-He cryocooler design, Internet monitoring, and a significant effort of engineering, these oscillators could bridge the gap from an experiment to a fully reliable machine. The cryocooler needs scheduled maintenance every 2 years, which is usual for these devices. The direct comparison of two CSOs demonstrates a frequency stability of 5 × 10(-16) for 30 s ≤ τ ≤ 300 s integration time, and 4.5 × 10(-15) at 1 day (1 × 10(-14) typical). Two prototypes are fully operational, codenamed ELISA and ULISS. ELISA has been permanently installed the new deep space antenna station of the European Space Agency in Malargüe, Argentina, in May 2012. ULISS is a transportable version of ELISA, modified to fit in a small van (8.5 m(2) footprint). Installation requires a few hours manpower and 1 day of operation to attain full stability. ULISS, intended for off-site experiments and as a technology demonstrator, and has successfully completed two long-distance travels.
ISSN:0034-6748
1089-7623
DOI:10.1063/1.4747456