Add to ORKGWe have tested a new temperature-compensated sapphire resonator as frequency determining element for high-stability microwave oscillator. Temperature compensation has been obtained by coating the sapphire resonator with a thin rutile film. A 2-µm rutile thickness is sufficient to reach turnover temperature higher than 40 K, and a 2 x 10-12 short-term frequency stability has been obtained
The Sapphire Whispering Gallery Mode Resonator technology enables the design of microwave oscillator...
We report on the measurement and characterization of power to frequency conversion in the resonant m...
We present design details and test results for the first short-term frequency standard to achieve ul...
We have tested a new temperature-compensated sapphire resonator as frequency determining element for...
Cryogenic microwave resonators have a strong potential as frequency stabilising elements for oscilla...
A 2 µm-thick film of rutile (TiO2) was deposited on a sapphire disk using a sol gel method to realiz...
Technical PaperTwo nominally identical microwave cryocooled sapphire oscillators (CSO) have been imp...
The authors demonstrate the use of a thermosensitive quartz resonator oscillator as a thermal sensor...
The authors demonstrate the use of a thermosensitive quartz resonator oscillator as a thermal sensor...
A new difference frequency technique to obtain frequency-temperature compensation using high quality...
International audienceWe present the characterization of 8–12 GHz whispering gallery mode resonators...
We demonstrated the use of themosensitive quartz resonator oscillator as thermal sensor for temperat...
The Sapphire Whispering Gallery Mode Resonator technology enables the design of microwave oscillator...
We present initial test results for a new short-term frequency standard, the 40 K compensated sapphi...
The Sapphire Whispering Gallery Mode Resonator technology enables the design of microwave oscillator...
The Sapphire Whispering Gallery Mode Resonator technology enables the design of microwave oscillator...
We report on the measurement and characterization of power to frequency conversion in the resonant m...
We present design details and test results for the first short-term frequency standard to achieve ul...
We have tested a new temperature-compensated sapphire resonator as frequency determining element for...
Cryogenic microwave resonators have a strong potential as frequency stabilising elements for oscilla...
A 2 µm-thick film of rutile (TiO2) was deposited on a sapphire disk using a sol gel method to realiz...
Technical PaperTwo nominally identical microwave cryocooled sapphire oscillators (CSO) have been imp...
The authors demonstrate the use of a thermosensitive quartz resonator oscillator as a thermal sensor...
The authors demonstrate the use of a thermosensitive quartz resonator oscillator as a thermal sensor...
A new difference frequency technique to obtain frequency-temperature compensation using high quality...
International audienceWe present the characterization of 8–12 GHz whispering gallery mode resonators...
We demonstrated the use of themosensitive quartz resonator oscillator as thermal sensor for temperat...
The Sapphire Whispering Gallery Mode Resonator technology enables the design of microwave oscillator...
We present initial test results for a new short-term frequency standard, the 40 K compensated sapphi...
The Sapphire Whispering Gallery Mode Resonator technology enables the design of microwave oscillator...
The Sapphire Whispering Gallery Mode Resonator technology enables the design of microwave oscillator...
We report on the measurement and characterization of power to frequency conversion in the resonant m...
We present design details and test results for the first short-term frequency standard to achieve ul...