Add to ORKGAtmospheric delivery of a microwave clock using an optical frequency comb is tested over 60 m. Phase noise measurement shows a picosecond-scale rms timing jitter under various weather conditions. A strong amplitude-phase correlation is observed. © 2010 Optical Society of America
Photonic synthesis of radio frequency waveforms revived the quest for unrivalled microwave purity by...
Remote distribution of optical frequency references, based on multifrequency sources such as femtose...
[[abstract]]We demonstrate electrooptic phase tracking of microwave signals beyond 18.5 GHz using a ...
Atmospheric delivery of a microwave clock using an optical frequency comb is tested over 60 m. Phase...
We have experimentally demonstrated atmospheric transfer of microwave timing references using a femt...
We characterize the instability of an rf clock signal caused by free-space transmission of a frequen...
Space-based global navigation and precision timing systems are critical for modern infrastructure. A...
The phase instability induced during the transfer of radio frequency and optical clock signals throu...
We report an experimental investigation on remote transfer of a femtosecond-laser frequency comb thr...
An optical frequency comb locked to a stable optical reference can serve as a source for microwave s...
Optical clocks, based on optical transitions of atoms, operate at much higher frequency than the mic...
International audienceWe demonstrate the use of a fiber-based femtosecond laser locked onto an ultra...
Optical frequency references are transferred in the atmosphere over a 60-m round-trip propagation di...
We demonstrate an optical frequency comb with fractional frequency instability of </=2x10(-14) at me...
Abstract – The ability of a frequency comb from a femtosecond mode-locked laser to faithfully reprod...
Photonic synthesis of radio frequency waveforms revived the quest for unrivalled microwave purity by...
Remote distribution of optical frequency references, based on multifrequency sources such as femtose...
[[abstract]]We demonstrate electrooptic phase tracking of microwave signals beyond 18.5 GHz using a ...
Atmospheric delivery of a microwave clock using an optical frequency comb is tested over 60 m. Phase...
We have experimentally demonstrated atmospheric transfer of microwave timing references using a femt...
We characterize the instability of an rf clock signal caused by free-space transmission of a frequen...
Space-based global navigation and precision timing systems are critical for modern infrastructure. A...
The phase instability induced during the transfer of radio frequency and optical clock signals throu...
We report an experimental investigation on remote transfer of a femtosecond-laser frequency comb thr...
An optical frequency comb locked to a stable optical reference can serve as a source for microwave s...
Optical clocks, based on optical transitions of atoms, operate at much higher frequency than the mic...
International audienceWe demonstrate the use of a fiber-based femtosecond laser locked onto an ultra...
Optical frequency references are transferred in the atmosphere over a 60-m round-trip propagation di...
We demonstrate an optical frequency comb with fractional frequency instability of </=2x10(-14) at me...
Abstract – The ability of a frequency comb from a femtosecond mode-locked laser to faithfully reprod...
Photonic synthesis of radio frequency waveforms revived the quest for unrivalled microwave purity by...
Remote distribution of optical frequency references, based on multifrequency sources such as femtose...
[[abstract]]We demonstrate electrooptic phase tracking of microwave signals beyond 18.5 GHz using a ...