Planar and linear fiber optic acoustic sensors embedded in an elastomer material
First Claim
1. A system, comprising:
- a light source;
an interferometric fiber sensor responsive to light from said source for producing at its output an optical signal containing an interference pattern proportional to a phase shift produced by an acoustic field being sensed by said interferometric fiber sensor, said interferometric fiber sensor comprised of an elastomer plate, a sensing fiber arm wound in a coil, spirally configured and embedded within said elastomer and a reference fiber arm made of a reference fiber; and
detection means responsive to said optical signal from said interferometric fiber sensor for developing from said optical signal a peak-to-peak photocurrent signal that has a peak-to-peak amplitude proportional to the amplitude of the interference pattern.
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Abstract
A interferometric planar and linear fiber optic sensor system comprised of a sensor element and a reference element. In the planar fiber optic sensor system the sensor and reference fibers are shaped in loops circularly and uniformly, heat treated or bonded together and embedded in a spiral pattern within a low Bulk Modulus and Young'"'"'s Modulus elastomer encapsulant. The invention results in high and frequency independent sensitivity which minimizes acceleration effects. For the linear sensor, the sensing fiber is shaped in loops forming a linear chain which is embedded in an appropriate low bulk modulus elastomeric encapsulant. The reference fiber is shaped in loops around a cylindrical aluminum mandrel within which the input and output fiber cables and couplers are encapsulated in a high bulk modulus material epoxy resin. In both the planar and linear forms, the sensing and reference fiber may be of equal length, however, the reference fiber may be of a shorter length when a coherent light source is utilized.
66 Citations
28 Claims
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1. A system, comprising:
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a light source; an interferometric fiber sensor responsive to light from said source for producing at its output an optical signal containing an interference pattern proportional to a phase shift produced by an acoustic field being sensed by said interferometric fiber sensor, said interferometric fiber sensor comprised of an elastomer plate, a sensing fiber arm wound in a coil, spirally configured and embedded within said elastomer and a reference fiber arm made of a reference fiber; and detection means responsive to said optical signal from said interferometric fiber sensor for developing from said optical signal a peak-to-peak photocurrent signal that has a peak-to-peak amplitude proportional to the amplitude of the interference pattern. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 28)
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9. A system comprising:
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a light source; input and output fiber optic cables; an interferometric fiber sensor responsive to light from said source for producing at its output an optical signal containing an interference pattern proportional to a phase shift produced by an acoustic field being sensed by said interferometric fiber sensor, said interferometric fiber sensor comprised of a sensing fiber arm made of a sensor fiber and a reference fiber arm made of a reference fiber; a tubular mandrel with inner and outer linear cylindrical surfaces; an elastomer material; said reference fiber helically wound around the outer linear cylindrical surface of said tubular mandrel; said sensor fiber helically wound around and over the reference fiber on said outer linear cylindrical surface of the tubular mandrel and both the reference and sensing fibers embedded in the elastomer material; input and output couplers located within the inner linear cylindrical surface of the tubular mandrel and connected to the input and output fiber optic cables, respectively, and to the input and output ends of the sensor and reference fibers, respectfully; an epoxy resin material with a bulk modulus of from 1×
1010 dynes/cm2 to 10×
1010 dynes/cm2 contained within the inner cylindrical linear surface of said tubular mandrel encapsulating said input and output couplers; anddetection means responsive to said optical signal from said interferometric fiber sensor for developing from said optical signal a peak-to-peak photocurrent signal that has a peak-to-peak amplitude proportional to the amplitude of the interference pattern. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
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20. A system comprising:
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a light source; input and output fiber optic cables; a interferometric fiber sensor responsive to light from said source for producing at its output an optical signal containing an interference pattern proportional to a phase shift produced by an acoustic field being sensed by said interferometric fiber sensor, said interferometric fiber sensor being comprised of a sensing fiber arm made of a sensing fiber and a reference fiber arm made of a reference fiber; said sensing fiber having input and output ends and being helically wound into a coil and embedded in a tubular cylindrical elastomer material having inner and outer cylindrical surfaces; said reference fiber having input and output ends; input and output fiber optic couplers connected to the input and output fiber optic cables, respectively, and the input and output ends of each of the sensor and reference fibers, respectively; an epoxy resin material with a bulk modulus of from 1×
1010 dynes/cm2 to 10×
1010 dynes/cm2 contained within the inner cylindrical surface of the tubular cylindrical elastomer material surrounding the couplers and reference fiber; anddetection means responsive to said optical signal from said interferometric fiber sensor for developing from said optical signal a photocurrent signal that has a peak-to-peak amplitude proportional to the amplitude of the interference pattern. - View Dependent Claims (21, 22, 23, 24, 25, 26, 27)
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Specification