STABILIZING RF OSCILLATOR BASED ON OPTICAL RESONATOR
First Claim
1. A method for stabilizing a radio frequency (RF) oscillator of interest via an optical resonator stabilized to a master RF oscillator, comprising:
- providing an optical resonator that is structured to support a first family of first optical modes and a second, different family of second optical modes, an optical mode in the first family and an optical mode in the second family exhibiting different susceptibilities to one or more external conditions of the optical resonator;
selecting a first optical mode in the first family at a first optical frequency and a second optical mode in the second family at a second, different optical frequency to generate a frequency difference between the first optical frequency of the selected first optical mode and the selected second optical mode at the second optical frequency as an indicator of a stability of the optical resonator with respect to the one or more external conditions;
monitoring an optical signal from the optical resonator that represents a change in the frequency difference between the first optical frequency and the second optical frequency;
stabilizing the optical resonator to reduce the monitored change in the frequency difference between the first optical frequency and the second optical frequency to stabilize the optical resonator with respect to a master RF frequency from a master RF oscillator; and
using information in the optical signal from the optical resonator to operate a locking circuit of an RF oscillator to lock an RF frequency of the RF oscillator of interest with respect to the optical resonator so that the RF oscillator of interest is stabilized relative to the master RF oscillator via the optical resonator.
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Abstract
Techniques, devices and systems that stabilize an RF oscillator by using an optical resonator that is stabilized relative to a master RF oscillator with acceptable frequency stability performance. In the examples described, the optical resonator is stabilized relative to the master RF oscillator by using a frequency stability indicator based on two different optical modes of the optical resonator. The RF oscillator to be stabilized is then locked to the stabilized optical resonator to achieve the acceptable RF stability in the RF oscillator.
29 Citations
25 Claims
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1. A method for stabilizing a radio frequency (RF) oscillator of interest via an optical resonator stabilized to a master RF oscillator, comprising:
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providing an optical resonator that is structured to support a first family of first optical modes and a second, different family of second optical modes, an optical mode in the first family and an optical mode in the second family exhibiting different susceptibilities to one or more external conditions of the optical resonator; selecting a first optical mode in the first family at a first optical frequency and a second optical mode in the second family at a second, different optical frequency to generate a frequency difference between the first optical frequency of the selected first optical mode and the selected second optical mode at the second optical frequency as an indicator of a stability of the optical resonator with respect to the one or more external conditions; monitoring an optical signal from the optical resonator that represents a change in the frequency difference between the first optical frequency and the second optical frequency; stabilizing the optical resonator to reduce the monitored change in the frequency difference between the first optical frequency and the second optical frequency to stabilize the optical resonator with respect to a master RF frequency from a master RF oscillator; and using information in the optical signal from the optical resonator to operate a locking circuit of an RF oscillator to lock an RF frequency of the RF oscillator of interest with respect to the optical resonator so that the RF oscillator of interest is stabilized relative to the master RF oscillator via the optical resonator. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 17)
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13. A system for stabilizing a radio frequency (RF) oscillator of interest via an optical resonator locked to a master oscillator, comprising:
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a laser that produces laser light; an optical resonator that is structured to support a first family of first optical modes and a second, different family of second optical modes, an optical mode in the first family and an optical mode in the second family exhibiting different susceptibilities to one or more external conditions of the optical resonator, the optical resonator being optically coupled to receive the laser light from the laser and to support the laser light inside the optical resonator at a selected first optical mode in the first family at a first optical frequency and a selected second optical mode in the second family at a second, different optical frequency, wherein a frequency difference between the first optical frequency of the selected first optical mode and the selected second optical mode at the second optical frequency indicates a stability of the optical resonator with respect to the one or more external conditions; a photodetector that is coupled to receive an optical signal from the optical resonator that contains light in the selected first and second optical modes and produces a detector signal that represents a change in the frequency difference between the first optical frequency and the second optical frequency; a master oscillator that produces a stable master oscillation signal; an RF oscillator that produces an RF oscillation signal; a first locking circuit coupled between the master oscillator and the optical resonator and operable to control the optical resonator to reduce the monitored change in the frequency difference between the first optical frequency and the second optical frequency and to stabilize the optical resonator with respect to the master oscillator; and a second locking circuit coupled between the RF oscillator and the optical resonator and operable to control the RF oscillator to stabilize the RF oscillator relative to the optical resonator to lock an RF frequency of the RF oscillator with respect to the master oscillator via the optical resonator. - View Dependent Claims (14, 15, 16, 18, 19, 20, 21, 22)
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23. A system for stabilizing a radio frequency (RF) oscillator with respect to an optical resonator, comprising:
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a laser that produces laser light; an optical resonator that is an optical whispering gallery mode resonator supporting a first family of first optical modes and a second, different family of second optical modes, wherein the optical resonator is structured so that an optical mode in the first family and an optical mode in the second family exhibit different susceptibilities to one or more external conditions of the optical resonator; an optical coupler that couples the laser light into the optical resonator so the laser light inside the optical resonator is at a selected first optical mode in the first family at a first optical frequency and a selected second optical mode in the second family at a second, different optical frequency, wherein a frequency difference between the first optical frequency of the selected first optical mode and the selected second optical mode at the second optical frequency indicates a stability of the optical resonator with respect to the one or more external conditions; a photodetector that is coupled to receive an optical signal from the optical resonator that contains light in the selected first and second optical modes and produces a detector signal that represents a change in the frequency difference between the first optical frequency and the second optical frequency; a master RF oscillator that produces a stable master RF oscillation signal which is coupled to cause a first optical modulation in the laser light inside the optical resonator; a first locking circuit coupled to receive the RF oscillation signal from the master RF oscillator and the detector signal from the photodetector and operable to control the optical resonator, based on the first optical modulation, to reduce the monitored change in the frequency difference between the first optical frequency and the second optical frequency and to stabilize the optical resonator with respect to the master RF oscillator; an RF oscillator that produces an RF oscillation signal which is coupled to cause a second optical modulation in the laser light inside the optical resonator; and a second locking circuit coupled between the RF oscillator and the optical resonator and operable to control, based on the second optical modulation, the RF oscillator to stabilize the RF oscillator relative to the optical resonator. - View Dependent Claims (24, 25)
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Specification