Claims
- 1. An optical hydrophone, comprising:
a housing defining a chamber, said housing being acoustically transparent to incoming acoustic waves at a frequency of interest; an optically transparent material filling said chamber, said material having air-filled voids defined therein that resonate within said material when said acoustic waves impinge on said material; first means coupled to said material for transmitting light therein, wherein said light passes therethrough; and second means coupled to said material for receiving said light passed therethrough, wherein said light passed through said material is affected by said air-filled voids resonating within said material.
- 2. An optical hydrophone as in claim 1 wherein each of said air-filled voids is surrounded by a microsphere.
- 3. An optical hydrophone as in claim 1 wherein each of said air-filled voids is a bubble in said material.
- 4. An optical hydrophone as in claim 1 wherein said first means comprises:
a light source for generating said light; an optical fiber having a first end coupled to said light source and having a second end, said optical fiber transmitting said light from said first end to said second end; and means for coupling said second end of said optical fiber to said material.
- 5. An optical hydrophone as in claim 4 wherein said material and said optical fiber have an index of refraction that is approximately equal.
- 6. An optical hydrophone as in claim 1 wherein said second means comprises:
a light receiver for receiving said light passed through said material; an optical fiber having a first end coupled to said light receiver and having a second end; and means for coupling said second end of said optical fiber to said material, wherein said optical fiber transmits said light passed through said material from said second end to said first end.
- 7. An optical hydrophone as in claim 6 wherein said material and said optical fiber have an index of refraction that is approximately equal.
- 8. An optical hydrophone as in claim 1 wherein said first means comprises:
a light source for generating said light; a first optical fiber having a first end coupled to said light source and having a second end, said first optical fiber transmitting said light from said first end thereof to said second end thereof; and a first lens for coupling said second end of said first optical fiber to said material.
- 9. An optical hydrophone as in claim 8 wherein said second means comprises:
a light receiver for receiving said light passed through said material; a second optical fiber having a first end coupled to said light receiver and having a second end; and a second lens for coupling said second end of said second optical fiber to said material, wherein said second optical fiber transmits said light passed through said material from said second end thereof to said first end thereof.
- 10. An optical hydrophone as in claim 9 wherein said material, said first optical fiber and said second optical fiber have an index of refraction that is approximately equal.
- 11. An optical hydrophone, comprising:
a sleeve having a first end and a second end, said sleeve being acoustically transparent to incoming acoustic waves at a frequency of interest; a first optical fiber having a terminal end thereof fitted in said first end of said sleeve; a first lens coupled to said terminal end of said first optical fiber; a second optical fiber having a terminal end thereof fitted in said second end of said sleeve; a second lens coupled to said terminal end of said second optical fiber, wherein said first lens and said second lens are spaced apart from one another by a gap; and an optically transparent material filling said gap, said material having air-filled voids defined therein that resonate within said material when said acoustic waves impinge on said material.
- 12. An optical hydrophone as in claim 11 wherein each of said air-filled voids is surrounded by a microsphere.
- 13. An optical hydrophone as in claim 11 wherein each of said air-filled voids is a bubble in said material.
- 14. An optical hydrophone as in claim 11 wherein said material, said first optical fiber and said second optical fiber have an index of refraction that is approximately equal.
- 15. An optical hydrophone array, comprising:
a plurality of optical hydrophones, each of said plurality of optical hydrophones comprising i) a housing defining a chamber, said housing being acoustically transparent to incoming acoustic waves at a frequency of interest, ii) an optically transparent material filling said chamber, said material having air-filled voids defined therein that resonate within said material when said acoustic waves impinge on said material, iii) first means coupled to said material for transmitting light therein, wherein said light passes therethrough, and iv) second means coupled to said material for receiving said light passed therethrough, wherein said light passed through said material is affected by said air-filled voids resonating within said material; and said second means of each of said plurality of optical hydrophones being optically coupled to said first means of an adjacent one of said plurality of optical hydrophones.
- 16. An optical hydrophone array as in claim 15 wherein each of said air-filled voids is surrounded by a microsphere.
- 17. An optical hydrophone array as in claim 15 wherein each of said air-filled voids is a bubble in said material.
STATEMENT OF GOVERNMENT INTEREST
[0001] The invention described herein may be manufactured and used by or for the Government of the United States of America for Governmental purposes without the payment of any royalties thereon or therefor.