Title :
On the flicker noise of ferrite circulators for ultra-stable oscillators
Author :
Rubiola, Enrico ; Gruson, Yannick ; Giordano, Vincent
Author_Institution :
Lab. of Phys. of Ionized Media & Applications, Univ. Henri Poincare Ecole Superieure de Sci. et Technol. de l´´Ingenieur de Nancy, France
Abstract :
The flicker noise of the ferrite circulator is a critical element in ultra-stable microwave oscillators, in which the signal reflected from the input of the reference cavity is exploited to stabilize the frequency. This paper explains why the circulator noise must be measured in isolation mode, proposes a measurement scheme, and provides experimental results. The observed flicker spans from -162 to -170 dB[rad/sup 2/]/Hz at 1 Hz off the 9.2 GHz carrier, and at +19 dBm of input power. In the same conditions, the instrument limit is below -180 dB[rad/sup 2/]/Hz. Experiments also give information on the mechanical stability of the microwave assembly, which is in the range of 10/sup -11/ in. The measurement method can be used as the phase detector of a corrected oscillator; and, in the field of solid-state physics, it can be used for the measurement of random fluctuations in magnetic materials.
Keywords :
ferrite circulators; flicker noise; magnetic microwave devices; mechanical stability; microcavities; microwave circulators; microwave oscillators; phase detectors; -162 to -170 dB; 1 Hz; 9.2 GHz; circulator noise; ferrite circulators; flicker noise; flicker spans; input power; isolation mode; magnetic materials; mechanical stability; microwave assembly; phase detector; random fluctuations; reference cavity; signal reflection; solid-state physics; ultra-stable microwave oscillators; ultra-stable oscillators; 1f noise; Circulators; Ferrites; Frequency; Instruments; Magnetic field measurement; Microwave oscillators; Noise measurement; Phase measurement; Stability;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
DOI :
10.1109/TUFFC.2004.1324399
