TUNABLE OPTO-ELECTRONIC OSCILLATOR HAVING OPTICAL RESONATOR FILTER OPERATING AT SELECTED MODULATION SIDEBAND

US 20130259072A1
Filed: 03/14/2013
Published: 10/03/2013
Est. Priority Date: 03/27/2012
Status: Active Grant

First Claim

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1. An opto-electronic oscillator device, comprising:

a laser to emit laser light at a laser carrier frequency;

an optical modulator that receives the laser light from the laser and modulates the received laser light, under a control of and in response to a modulation control signal, to produce modulated laser light having spectral components at the laser carrier frequency and modulation sidebands at frequencies different from the laser carrier frequency;

to an optical resonator filter positioned to receive the modulated laser light at a selected modulation sideband in resonance with an optical mode of the optical resonator filter to selectively receive and output filtered laser light at the selected modulation sideband while blocking laser light at the laser carrier frequency and other modulation sidebands from entering the optical resonator filter;

an optical detector coupled to receive the filtered laser light at the selected modulation sideband and the laser light at the laser carrier frequency and other modulation sidebands to produce an electrical detector signal; and

a feedback electronic circuit coupled between the optical detector and the optical modulator to amplify the electrical detector signal and to produce an electrical feedback signal as the modulation control signal that is fed into the optical modulator to produce a total signal gain greater than a total signal loss in a closed opto-electronic loop that includes (1) an optical section including the optical modulator, the optical resonator filter and the optical detector and (2) an electronic section including the optical detector and the feedback electronic circuit to sustain an oscillation in the closed opto-electronic loop.

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Abstract

Opto-electronic oscillator (OEO) devices include an optical resonator filter to block the strong laser light at the laser carrier frequency from entering the optical resonator filter and to select one of the weak modulation sidebands, which is in resonance with the optical resonator filter, to be coupled into the optical resonator filter. The laser light at the laser carrier frequency and other modulation sidebands bypass the optical resonator filter to reach a fast photodetector. The laser light in the selected modulation sideband in the optical resonator filter is then coupled out to mix with the laser light at the laser carrier frequency and other modulation sidebands at the fast photodetector to produce the detector output as the input to the electrical part of the opto-electronic loop to produce the OEO oscillation.

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20 Claims

1. An opto-electronic oscillator device, comprising:
- a laser to emit laser light at a laser carrier frequency;
  
  an optical modulator that receives the laser light from the laser and modulates the received laser light, under a control of and in response to a modulation control signal, to produce modulated laser light having spectral components at the laser carrier frequency and modulation sidebands at frequencies different from the laser carrier frequency;
  
  to an optical resonator filter positioned to receive the modulated laser light at a selected modulation sideband in resonance with an optical mode of the optical resonator filter to selectively receive and output filtered laser light at the selected modulation sideband while blocking laser light at the laser carrier frequency and other modulation sidebands from entering the optical resonator filter;
  
  an optical detector coupled to receive the filtered laser light at the selected modulation sideband and the laser light at the laser carrier frequency and other modulation sidebands to produce an electrical detector signal; and
  
  a feedback electronic circuit coupled between the optical detector and the optical modulator to amplify the electrical detector signal and to produce an electrical feedback signal as the modulation control signal that is fed into the optical modulator to produce a total signal gain greater than a total signal loss in a closed opto-electronic loop that includes (1) an optical section including the optical modulator, the optical resonator filter and the optical detector and (2) an electronic section including the optical detector and the feedback electronic circuit to sustain an oscillation in the closed opto-electronic loop.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 12, 13, 14, 15)
- - 2. The device as in claim 1, wherein:
    - the optical section and the electronic section are configured to render an oscillation frequency of the oscillation to be independent of a free spectral range of the optical resonator filter.
  - 3. The device as in claim 1, wherein:
    - the feedback electronic circuit includes a signal amplifier that amplifies the electrical detector signal and a phase rotator that adjusts a phase of the electrical detector signal.
  - 4. The device as in claim 1, wherein:
    - the laser is a tunable laser operable to change a value of the laser carrier frequency so as to tune an oscillation frequency of the oscillation in the closed opto-electronic loop.
  - 5. The device as in claim 4, comprising:
    - a phase lock loop circuit coupled to the electronic feedback circuit and the tunable laser to lock the oscillation frequency with respect to a reference frequency of an external frequency source.
  - 6. The device as in claim 4, wherein:
    - the tunable laser includes a semiconductor laser, an optical resonator optically coupled to the semiconductor laser to receive the laser light and to direct light in the optical resonator back to inject into the semiconductor laser to lock the semiconductor laser and the optical resonator to each other in frequency, andthe optical resonator is a tunable optical resonator which can be tuned to change the laser carrier frequency produced by the semiconductor laser.
  - 7. The device as in claim 6, wherein:
    - the optical resonator is a tunable optical whispering gallery mode resonator formed of an electro-optic material.
  - 8. The device as in claim 1, comprising:
    - a phase lock loop circuit coupled to the closed opto-electronic loop to lock the oscillation frequency with respect to a reference frequency of an external frequency source.
  - 9. The device as in claim 1, wherein:
    - the optical resonator filter includes an optical whispering gallery mode resonator.
  - 10. The device as in claim 1, wherein:
    - the optical resonator filter is tunable in frequency to change a value of a resonance of the optical resonator filter so as to tune an oscillation frequency of the oscillation in the closed opto-electronic loop.
  - 12. The method as in claim 10, comprising:
    - operating the optical section and the electronic section to render an oscillation frequency of the oscillation to be independent of a free spectral range of the optical resonator filter.
  - 13. The method as in claim 10, comprising:
    - operating the feedback electronic circuit to amplify the electrical detector signal and to adjust a phase of the electrical detector signal for sustaining the oscillation.
  - 14. The method as in claim 10, comprising:
    - tuning the laser carrier frequency to tune an oscillation frequency of the oscillation in the closed opto-electronic loop.
  - 15. The method as in claim 10, comprising:
    - tuning a resonance of the optical resonator filter to tune an oscillation frequency of the oscillation in the closed opto-electronic loop.

11. A method for generating an oscillation signal, comprising:
- operating an optical modulator to respond to a modulation control signal to perform optical modulation on laser light at a laser carrier frequency to produce modulated laser light having a spectral component at the laser carrier frequency and spectral components at modulation sidebands at frequencies different from the laser carrier frequency;
  
  coupling light at a selected modulation sideband in the modulated laser light into an optical resonator filter which is in optical resonance with the selected modulation sideband to produce filtered laser light at a frequency of the selected modulation sideband while blocking laser light at the laser carrier frequency and laser light at other modulation sidebands from to entering the optical resonator filter;
  
  operating an optical detector to receive the filtered laser light at the selected modulation sideband and laser light at the laser carrier frequency and other modulation sidebands to produce an electrical detector signal; and
  
  operating a feedback electronic circuit to process the electrical detector signal to produce the modulation control signal that is fed into the optical modulator, wherein the processing of the electrical detector signal produce a total signal gain greater than a total signal loss in a closed opto-electronic loop that includes (1) an optical section including the optical modulator, the optical resonator filter and the optical detector and (2) an electronic section including the optical detector and the feedback electronic circuit to sustain an oscillation in the closed opto-electronic loop.

16. An opto-electronic oscillator device, comprising:
- a laser to emit laser light at a laser carrier frequency;
  
  an optical modulator that receives the laser light from the laser and modulates at least a phase of the received laser light, in response to a modulation control signal, to produce modulated laser light having strong laser light at the laser carrier frequency and weak laser to light at modulation sidebands at frequencies different from the laser carrier frequency;
  
  an optical whispering gallery mode resonator filter positioned to receive the modulated laser light from the optical modulator and configured to be in optical resonance with a selected modulation sideband of the modulated laser light to selectively receive and output filtered laser light at the selected modulation sideband while blocking laser light at the laser carrier frequency and other modulation sidebands from entering the optical whispering gallery mode resonator filter;
  
  an optical detector coupled to receive the filtered laser light at the selected modulation sideband and laser light at the laser carrier frequency and other modulation sidebands to produce an electrical detector signal; and
  
  a feedback electronic circuit coupled between the optical detector and the optical modulator to include an amplifier that amplifies the electrical detector signal and a phase rotator that adjusts a phase of the electrical detector signal to produce the modulation control signal that is fed into the optical modulator,wherein the feedback electronic circuit is configured to produce a total signal gain greater than a total signal loss in a closed opto-electronic loop that includes (1) an optical section including the optical modulator, the optical resonator filter and the optical detector and (2) an electronic section including the optical detector and the feedback electronic circuit to sustain an oscillation in the closed opto-electronic loop, andwherein the laser or the optical whispering gallery mode resonator filter is tunable in frequency to tune an oscillation frequency of the oscillation in the closed opto-electronic loop.
- View Dependent Claims (17, 18, 19, 20)
- - 17. The device as in claim 16, wherein:
    - the optical section and the electronic section are configured to render an oscillation frequency of the oscillation to be independent of a free spectral range of the optical resonator filter.
  - 18. The device as in claim 16, wherein:
    - the laser includes a semiconductor laser, an optical resonator optically coupled to the semiconductor laser to receive the laser light and to direct light in the optical resonator back to inject into the semiconductor laser to lock the semiconductor laser and the optical resonator to each other in frequency, wherein the optical resonator is a tunable optical resonator which can be tuned to change the laser carrier frequency produced by the to semiconductor laser.
  - 19. The device as in claim 16, wherein:
    - the optical whispering gallery mode resonator is formed of an electro-optic material and is tunable in frequency.
  - 20. The device as in claim 16, comprising:
    - a phase lock loop circuit coupled to the closed opto-electronic loop to lock the oscillation frequency with respect to a reference frequency of an external frequency source.

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Current Assignee
Oewaves Incorporated
Original Assignee
Oewaves Incorporated
Inventors
Maleki, Lute, Seidel, David, Ilchenko, Vladimir, Eliyahu, Danny, Savchenkov, Anatoliy, Matsko, Andrey

Granted Patent

US 8,976,822 B2
Time in Patent Office

Days
Field of Search
US Class Current

372/20
CPC Class Codes

G02F 2/00   Demodulating light; Transfe...

G02F 2203/50   Phase-only modulation

H01S 3/1305   Feedback control systems

H01S 5/0656   Seeding, i.e. an additional...

H03B 17/00   Generation of oscillations ...

TUNABLE OPTO-ELECTRONIC OSCILLATOR HAVING OPTICAL RESONATOR FILTER OPERATING AT SELECTED MODULATION SIDEBAND

First Claim

3 Assignments

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Abstract

Citations

20 Claims

Specification

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TUNABLE OPTO-ELECTRONIC OSCILLATOR HAVING OPTICAL RESONATOR FILTER OPERATING AT SELECTED MODULATION SIDEBAND

First Claim

3 Assignments

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0 Petitions

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Accused Products

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Abstract

Citations

20 Claims

Specification

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Solutions

Use Cases

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