Losses in high quality quartz crystal resonators at cryogenic temperatures | Zendy

Serge Galliou | Zendy; Joël Imbaud | Zendy; Maxim Goryachev | Zendy; R. Bourquin | Zendy; Philippe Abbé | Zendy

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Losses in high quality quartz crystal resonators at cryogenic temperatures

Author(s) -

Serge Galliou,

Joël Imbaud,

Maxim Goryachev,

R. Bourquin,

Philippe Abbé

Publication year - 2011

Publication title -

applied physics letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.182

H-Index - 442

eISSN - 1077-3118

pISSN - 0003-6951

DOI - 10.1063/1.3559611

Subject(s) - quartz , overtone , resonator , crystal (programming language) , q factor , crystal oscillator , cryocooler , cryogenics , condensed matter physics , physics , materials science , optoelectronics , thermodynamics , composite material , astronomy , spectral line , computer science , programming language

International audienceMeasurement of the mechanical losses of quartz crystal is a topic of interest for communities dealing with the gravitational wave detectors and also the time and frequency domain. About the latter, the authors describe Q-factor measurements of quartz crystal resonators at cryogenic temperatures under 10 K, thanks to a cryocooler-based experimental set-up. A Q-factor of 325 millions at 4 K, on the fifth overtone of the quasilongitudinal mode at 15.9 MHz, has been recorded. As shown, the acoustic wave trapping is suspected to limit the Landau-Rumer regime below 6 K [Landau and Rumer, Phys. Z. Sowjetunion 11, 18 (1937)]

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