International audience<p>As a direct consequence of the gravitational time dilation predicted by Einstein, atomic clock frequencies depend on the local gravitational potential. Several groups in the world have developed the capacity to control the frequency of a new generation of optical clocks at the 18 digits level, which corresponds to the ability to detect 1 cm height changes. Therefore, it raises the perspective of contributing to a refined definition of the geoid by rivaling traditional geodesy techniques, based either on satellites or on spirit leveling.</p><p>&#160;</p><p>Transportable optical clocks have drawn considerable interest in the last years [1-3], as they are the only ground-based instrume...
According to Einstein’s theory of general relativity, frequency comparisons of highly precise optica...
International audienceThe transfer of ultra-stable frequencies between distant laboratories is requi...
The performance of optical clocks has strongly progressed in recent years, and accuracies and instab...
Leveraging the unrivalled performance of optical clocks as key tools for geo-science, for astronomy ...
International audienceOptical atomic clocks, due to their unprecedented stability and uncertainty, a...
International audienceWe describe the design of a transportable optical lattice clock based on neutr...
International audienceAtomic clocks are today essential for several daily life applications, such as...
International audienceThe use of ultra-precise optical clocks in space ("master clocks") w...
International audienceLa nouvelle génération d’horloges atomiques, basées sur les transitions optiqu...
The use of ultra-precise optical clocks in space (“master clocks”) will allow for a range of new a...
Atomic clocks are the modern tools of timekeeping. Ever since the redefinition of the second in 1967...
The dissemination of atomic clocks with fiber-based techniques finds application in the fields of me...
According to Einstein’s theory of general relativity, frequency comparisons of highly precise optica...
International audienceThe transfer of ultra-stable frequencies between distant laboratories is requi...
The performance of optical clocks has strongly progressed in recent years, and accuracies and instab...
Leveraging the unrivalled performance of optical clocks as key tools for geo-science, for astronomy ...
International audienceOptical atomic clocks, due to their unprecedented stability and uncertainty, a...
International audienceWe describe the design of a transportable optical lattice clock based on neutr...
International audienceAtomic clocks are today essential for several daily life applications, such as...
International audienceThe use of ultra-precise optical clocks in space ("master clocks") w...
International audienceLa nouvelle génération d’horloges atomiques, basées sur les transitions optiqu...
The use of ultra-precise optical clocks in space (“master clocks”) will allow for a range of new a...
Atomic clocks are the modern tools of timekeeping. Ever since the redefinition of the second in 1967...
The dissemination of atomic clocks with fiber-based techniques finds application in the fields of me...
According to Einstein’s theory of general relativity, frequency comparisons of highly precise optica...
International audienceThe transfer of ultra-stable frequencies between distant laboratories is requi...
The performance of optical clocks has strongly progressed in recent years, and accuracies and instab...