According to Einstein’s theory of general relativity, frequency comparisons of highly precise optical clocks connected by optical links give a direct access to differences of the gravity potential (relativistic geodesy). This presentation illustrates potential applications of future clock networks, such unification of height systems or monitoring mass variations. In future, precise optical clocks can be used for defining and realizing an international height system in a new way
We present the latest developments in the field of atomic clocks and their applications in metrology...
International audienceThis work aims to evaluate the contribution of optical atomic clocks in the de...
According to general relativity, a clock experiencing a shift in the gravitational potential ΔU will...
Determination of the Earth’s gravity field and geopotential value is one of the fundamental topics i...
Observers in relative motion or at different gravitational potentials measure disparate clock rates....
International audienceOptical atomic clocks, due to their unprecedented stability and uncertainty, a...
The performance of optical clocks has strongly progressed in recent years, and accuracies and instab...
International audienceAtomic clocks are today essential for several daily life applications, such as...
In section 2, we introduce fundamental concepts of GR concerning the measurement of time, relativist...
International audience<p>As a direct consequence of the gravitational time dilation predicted ...
Quantum metrology enables new applications in geodesy, including relativistic geodesy. The recent pr...
Clock synchronization is the backbone of applications such as high-accuracy satellite navigation, ge...
International audienceThe frequency stability and uncertainty of the latest generation of optical at...
We present the latest developments in the field of atomic clocks and their applications in metrology...
International audienceThis work aims to evaluate the contribution of optical atomic clocks in the de...
According to general relativity, a clock experiencing a shift in the gravitational potential ΔU will...
Determination of the Earth’s gravity field and geopotential value is one of the fundamental topics i...
Observers in relative motion or at different gravitational potentials measure disparate clock rates....
International audienceOptical atomic clocks, due to their unprecedented stability and uncertainty, a...
The performance of optical clocks has strongly progressed in recent years, and accuracies and instab...
International audienceAtomic clocks are today essential for several daily life applications, such as...
In section 2, we introduce fundamental concepts of GR concerning the measurement of time, relativist...
International audience<p>As a direct consequence of the gravitational time dilation predicted ...
Quantum metrology enables new applications in geodesy, including relativistic geodesy. The recent pr...
Clock synchronization is the backbone of applications such as high-accuracy satellite navigation, ge...
International audienceThe frequency stability and uncertainty of the latest generation of optical at...
We present the latest developments in the field of atomic clocks and their applications in metrology...
International audienceThis work aims to evaluate the contribution of optical atomic clocks in the de...
According to general relativity, a clock experiencing a shift in the gravitational potential ΔU will...