A micro-resonator for fundamental physics experiments and its possible interest for time and frequency applications

机译：用于基础物理实验的微谐振器及其对时间和频率应用的可能兴趣

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A dedicated micro-resonator in a length-extension mode (LEM) has been developing for fundamental physics experiments, aiming to detect the quantum ground state of a resonator. The experiment is based on a high frequency, high quality factor and low mass micro-resonator, implemented in a high finesse Fabry-Perot cavity at cryogenic temperature. Very interesting preliminary measurements have been obtained on a 3.9 MHz, 25 µg resonator, given a 1.95 million quality factor, at room temperature and under a 5 10⁻² mbar vacuum. By its planar configuration compatible with collective etching process, this resonator should also find interesting applications in the field of ultra stable oscillator (USO) and future quartz-MEMS USO.

机译：已经开发出一种专用于长度扩展模式（LEM）的微谐振器，用于基础物理实验，旨在检测谐振器的量子基态。该实验基于高频，高品质因数和低质量的微谐振器，该谐振器在低温下的高精细Fabry-Perot腔中实现。在室温和5 10 ^{−2 真空下，在3.9 MHz，25 µg谐振器上获得了非常有趣的初步测量结果，给定了195万质量因数。通过其与集体蚀刻工艺兼容的平面配置，该谐振器还将在超稳定振荡器（USO）和未来的石英MEMS USO领域中找到有趣的应用。}

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《2011 Joint Conference of the IEEE International Frequency Control Symposium European Frequency and Time Forum》|2011年|p.1-5|共5页
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Le Traon O.; Bahriz M.; Ducloux O.; Masson S.; Janiaud D.; Kuhn A.; Briant T.; Cohadon P-F; Heidmann A.; Michel C.; Pinard L.; Flaminio R. Raphaele;
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A micro-resonator for fundamental physics experiments and its possible interest for time and frequency applications

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