Apparatus and method for minimizing polarization-induced signal fading in an interferometric fiber-optic sensor using input-polarization control

US 4,897,543 A
Filed: 01/25/1989
Issued: 01/30/1990
Est. Priority Date: 01/25/1989
Status: Expired due to Term

First Claim

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1. An apparatus for minimizing polarization-induced signal fading in an interferometric fiber-optic sensor, said apparatus comprising:

an optical source for providing an input light beam;

a polarization controller for changing the polarization state of said input light beam as a function of first and second control signals applied to said polarization controller;

means for conveying said input light beam with the changed polarization state to said interferometric fiber-optic sensor, said interferometric fiber-optic sensor being responsive to said input light beam with the changed polarization state for developing an interference pattern output;

photodetection means responsive to said interference pattern output for developing an electrical signal that has a peak-to-peak amplitude proportional to the visibility of said interference pattern output; and

control means responsive to said electrical signal for controllably developing said first and second control signals to change the polarization state of said input light beam so as to maximize the peak-to-peak amplitude of said electrical signal and thereby minimize the polarization-induced signal fading in said interferometric fiber-optic sensor.

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Abstract

An apparatus and method for minimizing polarization-induced signal fading in an interferometric fiber-optic sensor is disclosed. In a preferred embodiment of the invention, the polarization state of an input light beam is changed by a polarization controller as a function of first and second control signals applied to the controller. The input light beam with the changed polarization state is applied to the input of an interferometric fiber-optic sensor, causing the interferometric fiber-optic sensor to form an interference pattern at its output. This interference pattern is photodetected to develop an electrical signal that has a peak-to-peak amplitude proportional to the visibility of the interference pattern. A control circuit is responsive to the electrical signal for controllably developing the first and second control signals to change the polarization state of the input light beam to maximize the peak-to-peak amplitude of the electrical signal, thereby minimizing the polarization-induced signal fading in the interferometric fiber-optic sensor. The electrical signal is also demodulated to produce an output signal that is proportional to the field being sensed by the interferometric fiber-optic sensor.

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17 Claims

1. An apparatus for minimizing polarization-induced signal fading in an interferometric fiber-optic sensor, said apparatus comprising:
- an optical source for providing an input light beam;
  
  a polarization controller for changing the polarization state of said input light beam as a function of first and second control signals applied to said polarization controller;
  
  means for conveying said input light beam with the changed polarization state to said interferometric fiber-optic sensor, said interferometric fiber-optic sensor being responsive to said input light beam with the changed polarization state for developing an interference pattern output;
  
  photodetection means responsive to said interference pattern output for developing an electrical signal that has a peak-to-peak amplitude proportional to the visibility of said interference pattern output; and
  
  control means responsive to said electrical signal for controllably developing said first and second control signals to change the polarization state of said input light beam so as to maximize the peak-to-peak amplitude of said electrical signal and thereby minimize the polarization-induced signal fading in said interferometric fiber-optic sensor.
- View Dependent Claims (2, 3, 4, 5, 6, 8, 9, 10, 11, 12, 13, 14)
- - 2. The apparatus of claim 1 wherein said photodetection means includes:
    - a photodetector for developing said electrical signal; and
      
      an output optical fiber for conveying said interference pattern output to said photodetector.
  - 3. The apparatus of claim 1 wherein:
    - said optical source is a laser.
  - 4. The apparatus of claim 1 wherein said control means includes:
    - means for detecting the peak-to-peak amplitude of said electrical signal;
      
      first and second means for respectively detecting first and second modulation components in the peak-to-peak amplitude output of said detecting means; and
      
      first and second conditioning means for respectively changing said first and second modulation components to said first and second control signals.
  - 5. The apparatus of claim 4 wherein:
    - said detecting means is a peak-to-peak detector.
  - 6. The apparatus of claim 4 wherein:
    - said conveying means is an optical fiber.
  - 8. The apparatus of claim 1 wherein said control means includes:
    - means for detecting the peak-to-peak amplitude of said electrical signal; and
      
      processing means responsive to the peak-to-peak amplitude output of said detecting means for developing said first and second control signals.
  - 9. The apparatus of claim 8 wherein:
    - said detecting means is a peak-to-peak detector.
  - 10. The apparatus of claim 9 wherein:
    - said conveying means is an optical fiber.
  - 11. The apparatus of claim 10 wherein said photodetection means includes:
    - a photodetector for developing said electrical signal; and
      
      an output optical fiber for conveying said interference pattern output to said photodetector.
  - 12. The apparatus of claim 1 further including:
    - means for demodulating said electrical signal to produce an output signal that is proportional to the field being sensed by said interferometric fiber-optic sensor; and
      
      means for supplying a dither frequency to said optical source and to said demodulating means.
  - 13. The apparatus of claim 1 wherein:
    - said conveying means is an optical fiber.
  - 14. The apparatus of claim 13 wherein said photodetection means includes:
    - a photodetector for developing said electrical signal; and
      
      an output optical fiber for conveying said interference pattern output to said photodetector.

7. The apparatus of claim 7 wherein said photodetection means includes:
- a photodetector for developing said electrical signal; and
  
  an output optical fiber for conveying said interference pattern output to said photodetector.

15. A method for minimizing polarization-induced signal fading in an interferometric fiber-optic sensor, said method comprising the steps of:
- changing the polarization state of an input light beam as a function of first and second control signals;
  
  applying the input light beam with the changed polarization state to the input of an interferometric fiber-optic sensor;
  
  forming an interference pattern at the output of an interferometric fiber-optic sensor in response to the application of the input light beam with the changed polarization state;
  
  detecting the interference pattern output to develop an electrical signal that has a peak-to-peak amplitude proportional to the visibility of the interference pattern output;
  
  using the electrical signal to controllably develop the first and second control signals to change the polarization state of the input light beam so as to maximize the peak-to-peak amplitude of the electrical signal in order to minimize the polarization-induced signal fading in the interferometric fiber-optic sensor.
- View Dependent Claims (16)
- - 16. The method of claim 15 further including the steps of:
    - demodulating the electrical signal to produce an output signal proportional to the field being sensed by the interferometric fiber-optic sensor; and
      
      dithering the frequency of the input light beam and the frequency of the electrical signal being demodulated.

17. An apparatus for minimizing polarization-induced signal fading in an interferometric fiber-optic sensor, said apparatus comprising:
- an optical source for providing an input light beam;
  
  a polarization controller for changing the polarization state of said input light beam as a function of a plurality of control signals applied to said polarization controller;
  
  means for conveying said input light beam with the changed polarization state to said interferometric fiber-optic sensor, said interferometric fiber-optic sensor being responsive to said input light beam with the changed polarization state for developing an interference pattern output;
  
  photodetection means responsive to said interference pattern output for developing an electrical signal that has a peak-to-peak amplitude proportional to the visibility of said interference pattern output; and
  
  control means responsive to said electrical signal for controllably developing said plurality of control signals to change the polarization state of said input light beam so as to maximize the peak-to-peak amplitude of said electrical signal and thereby minimize the polarization-induced signal fading in said interferometric fiber-optic sensor.

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Current Assignee
the united states of america as represented by the secretary of the navy
Original Assignee
the united states of america as represented by the secretary of the navy
Inventors
Kersey, Alan D.
Primary Examiner(s)
Nelms, David C.

Application Number

US07/301,301
Time in Patent Office

370 Days
Field of Search

250/22 S, 250/227, 250/231 R, 250/20 S, 356/354, 356/359, 356/360, 356/345, 350/96.29
US Class Current

250/227.27
CPC Class Codes

G01D 5/344   using polarisation G01D5/35...

G01D 5/35329   using interferometer with t...

G01M 11/39   in which light is projected...

Apparatus and method for minimizing polarization-induced signal fading in an interferometric fiber-optic sensor using input-polarization control

First Claim

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Abstract

48 Citations

17 Claims

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Apparatus and method for minimizing polarization-induced signal fading in an interferometric fiber-optic sensor using input-polarization control

First Claim

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Accused Products

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Abstract

48 Citations

17 Claims

Specification

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