International audienceThis paper presents the development of a 9.192 GHz microwave frequency synthesis chain (absolute and residual noise characterization) dedicated to be a local oscillator (LO) in a high-performance cesium vapor cell atomic clock based on coherent population trapping (CPT). The key components are an ultra low noise oven controlled quartz crystal oscillator (OCXO), multiplied to 9.2 GHz using a non-linear transmission line. A dielectric resonator oscillator (DRO) is phase-locked onto the microwave signal to generate the 9.192 GHz frequency. The absolute phase noise of the LO has been characterized at the level of −42, −100, −117 dBrad2/Hz and −129 dBrad2/Hz at 1 Hz, 100 Hz, 1 kHz and 10 kHz offset frequencies respectively....
International audienceA synthesized microwave local oscillator for a cesium atomic frequency standar...
we present a new chip-scale atomic clock with low power consumption based on a new microwave frequen...
International audienceThe project aims to develop a 4.596 GHz MEMS HBAR-based microwave voltage cont...
International audienceThis paper presents the development of a 9.192 GHz microwave frequency synthes...
International audienceWe report the development, absolute phase noise, and residual phase noise char...
We report on the development and characterization of novel 4.596 GHz and 6.834 GHz microwave freque...
Abstract Phase noise of the frequency synthesizer is one of the main limitations to the short‐term s...
We present a low phase noise microwave frequency synthesizer for the integrating sphere cold atom cl...
International audienceThis paper describes a 4.596 GHz frequency synthesis based on a 2.1 GHz solid ...
221-227The performance of newer generations of ultra high stability atomic frequency standards base...
The Dick effect is one of the main factors limiting the short-term frequency stability of Cs fountai...
In this paper, we present the design, fabrication, and electrical characterization of a low-power mi...
This paper describes the design and implementation of low phase noise 10-MHz crystal oscillators [us...
We present a new chip-scale atomic clock with low power consumption based on a new microwave frequen...
International audienceWe demonstrate a vapor-cell atomic-clock prototype based on a continuous-wave ...
International audienceA synthesized microwave local oscillator for a cesium atomic frequency standar...
we present a new chip-scale atomic clock with low power consumption based on a new microwave frequen...
International audienceThe project aims to develop a 4.596 GHz MEMS HBAR-based microwave voltage cont...
International audienceThis paper presents the development of a 9.192 GHz microwave frequency synthes...
International audienceWe report the development, absolute phase noise, and residual phase noise char...
We report on the development and characterization of novel 4.596 GHz and 6.834 GHz microwave freque...
Abstract Phase noise of the frequency synthesizer is one of the main limitations to the short‐term s...
We present a low phase noise microwave frequency synthesizer for the integrating sphere cold atom cl...
International audienceThis paper describes a 4.596 GHz frequency synthesis based on a 2.1 GHz solid ...
221-227The performance of newer generations of ultra high stability atomic frequency standards base...
The Dick effect is one of the main factors limiting the short-term frequency stability of Cs fountai...
In this paper, we present the design, fabrication, and electrical characterization of a low-power mi...
This paper describes the design and implementation of low phase noise 10-MHz crystal oscillators [us...
We present a new chip-scale atomic clock with low power consumption based on a new microwave frequen...
International audienceWe demonstrate a vapor-cell atomic-clock prototype based on a continuous-wave ...
International audienceA synthesized microwave local oscillator for a cesium atomic frequency standar...
we present a new chip-scale atomic clock with low power consumption based on a new microwave frequen...
International audienceThe project aims to develop a 4.596 GHz MEMS HBAR-based microwave voltage cont...