International audiencePlano-convex quartz crystal resonators can exhibit quality-factors close to a billion at 4K. They are also suitable to operate as optical cavities. As a consequence they are good candidates for optomechanic experiments including quartz-based cryogenic clocks. The paper is focused on the latter application and demonstrates its feasability
Optical measurements of a nanoscale silicon optomechanical crystal cavity with a mechanical resonanc...
B. Cretin, Professeur, ENSMM, Besançon P-A. Rolland, Professeur, Université des Sciences et Technolo...
Quartz crystal resonators have been the most commonly used timing devices to date. Today\u27s timing...
International audiencePlano-convex quartz crystal resonators can exhibit quality-factors close to a ...
For a few years, the Time and Frequency department in FEMTO-ST Insitute has been leading research ab...
This PhD work continues and reinforces recentinvestigations on bulk acoustic wave resonators atcryog...
International audienceAcoustic resonances at frequencies around 500 MHz and Q-factors exceeding one ...
International audienceThe best plano-convex quartz crystals resonators can have quality factors up t...
International audienceMeasurement of the mechanical losses of quartz crystal is a topic of interest ...
International audienceMechanical losses lower than 10−9 have been demonstrated on quartz crystal aco...
Depuis plusieurs années, le département Temps-Fréquence de l’institut FEMTO-ST mène une étude sur le...
The present work is focused on improvement of ultra stable sources of frequencies over short averagi...
International audienceWe present a free-space optomechanical system operating in the 1-K range. The ...
Current interferometric gravitational wave detectors (IGWDs) are operated at room temperature with t...
International audienceThis work presents the results of investigations on different aspects of cryog...
Optical measurements of a nanoscale silicon optomechanical crystal cavity with a mechanical resonanc...
B. Cretin, Professeur, ENSMM, Besançon P-A. Rolland, Professeur, Université des Sciences et Technolo...
Quartz crystal resonators have been the most commonly used timing devices to date. Today\u27s timing...
International audiencePlano-convex quartz crystal resonators can exhibit quality-factors close to a ...
For a few years, the Time and Frequency department in FEMTO-ST Insitute has been leading research ab...
This PhD work continues and reinforces recentinvestigations on bulk acoustic wave resonators atcryog...
International audienceAcoustic resonances at frequencies around 500 MHz and Q-factors exceeding one ...
International audienceThe best plano-convex quartz crystals resonators can have quality factors up t...
International audienceMeasurement of the mechanical losses of quartz crystal is a topic of interest ...
International audienceMechanical losses lower than 10−9 have been demonstrated on quartz crystal aco...
Depuis plusieurs années, le département Temps-Fréquence de l’institut FEMTO-ST mène une étude sur le...
The present work is focused on improvement of ultra stable sources of frequencies over short averagi...
International audienceWe present a free-space optomechanical system operating in the 1-K range. The ...
Current interferometric gravitational wave detectors (IGWDs) are operated at room temperature with t...
International audienceThis work presents the results of investigations on different aspects of cryog...
Optical measurements of a nanoscale silicon optomechanical crystal cavity with a mechanical resonanc...
B. Cretin, Professeur, ENSMM, Besançon P-A. Rolland, Professeur, Université des Sciences et Technolo...
Quartz crystal resonators have been the most commonly used timing devices to date. Today\u27s timing...