Optical fiber sensor and methods of manufacture
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01D-005/353
G02B-006/02
G01L-001/24
C03C-025/10
C03C-025/62
G01B-011/16
G01K-011/32
G01N-021/77
출원번호
US-0384275
(2010-07-16)
등록번호
US-9217681
(2015-12-22)
국제출원번호
PCT/CA2010/001117
(2010-07-16)
§371/§102 date
20120330
(20120330)
국제공개번호
WO2011/006260
(2011-01-20)
발명자
/ 주소
Alemohammad, Hamidreza
Toyserkani, Ehsan
출원인 / 주소
Alemohammad, Hamidreza
대리인 / 주소
Gowling Lafleur Henderson LLP
인용정보
피인용 횟수 :
1인용 특허 :
15
초록▼
A superstructure fiber Bragg gratings (FBG) by laser-assisted direct writing of on-fiber metallic films. A laser direct write method is used to fabricate periodic films of silver nanoparticles on the non-planar surface of as-fabricated FBGs. Silver films with a thickness of about 9 μm are fabricated
A superstructure fiber Bragg gratings (FBG) by laser-assisted direct writing of on-fiber metallic films. A laser direct write method is used to fabricate periodic films of silver nanoparticles on the non-planar surface of as-fabricated FBGs. Silver films with a thickness of about 9 μm are fabricated around a Bragg grating optical fiber. The performance of the superstructure FBG is studied by applying temperature and tensile stress on the fiber. An opto-mechanical model is also developed to predict the optical response of the synthesized superstructure FBG under thermal and structural loadings. The reflectivity of sidebands in the reflection spectrum can be tuned up to 20% and 37% under thermal and structural loadings, respectively. In addition, the developed superstructure FBG is used for simultaneous measurement of multiple criteria such as force and temperature to eliminate the inherent limitation of regular FBGs in multi-parameter sensing.
대표청구항▼
1. An optical fiber sensor comprising a single Fiber Bragg Grating (FBG) provided to an optical fiber and a plurality of bands formed on a surface of the optical fiber in a spaced relationship to the single FBG wherein the optical fiber sensor provides simultaneous detection of more than one criteri
1. An optical fiber sensor comprising a single Fiber Bragg Grating (FBG) provided to an optical fiber and a plurality of bands formed on a surface of the optical fiber in a spaced relationship to the single FBG wherein the optical fiber sensor provides simultaneous detection of more than one criteria. 2. The optical fiber sensor of claim 1, wherein the sensor simultaneously detects two criteria, the two criteria selected from the group consisting of temperature and strain, temperature and stress, temperature and pressure, temperature and force, temperature and level of hydrogen, and temperature and humidity. 3. The optical fiber sensor of claim 1, wherein the plurality of bands formed on the surface of the optical fiber comprise a plurality of coatings formed on an exterior of the optical fiber. 4. The optical fiber sensor of claim 3, wherein the plurality of coatings are equally spaced along a length of the FBG. 5. The optical fiber sensor of claim 4, wherein the plurality of coatings have a length of approximately 1.5 mm and a space between adjacent coatings of approximately 0.5 mm. 6. The optical fiber sensor of claim 3, wherein the plurality of coatings are non-equally spaced along a length of the FBG. 7. The optical fiber sensor of claim 3, wherein the plurality of coatings comprises a first set of coatings and a second set of coatings, the first set of coatings being equally spaced along a length of the FBG, and the second set of coatings being non-equally spaced along the length of the FBG. 8. The optical fiber sensor of claim 3, wherein the plurality of coatings are a film having a thickness of up to about 200 μm. 9. The optical fiber sensor of claim 8, wherein the plurality of coatings are a film having a thickness of about 9 μm. 10. The optical fiber sensor of claim 3, wherein the plurality of coatings have a length of up to one-third of a length of the FBG, and a space between adjacent coatings is up to one-third of the length of the FBG. 11. The optical fiber sensor of claim 1, wherein the plurality of bands are formed by removing a portion of a coating on the optical fiber. 12. The optical fiber sensor of claim 11, wherein the bands have a depth of up to 40 μm from the surface of the optical fiber to a bottom of the bands. 13. The optical fiber sensor of claim 12, wherein each of the plurality of bands have a length of up to one-third of a length of the FBG, and a space between adjacent bands is up to one-third of the length of the FBG. 14. The optical fiber sensor of claim 11, wherein the more than one criteria are selected from the group consisting of temperature and strain, temperature and force, temperature and stress, temperature and pressure, and temperature and liquid concentration. 15. A method of making an optical fiber sensor for simultaneously detecting more than one criteria, the method comprising: forming a single Fiber Bragg Grating (FBG) on a surface of the optical fiber; andforming a plurality of bands onto the optical fiber in a spaced relationship to the single FBG. 16. The method of claim 15, wherein the plurality of bands are applied by a procedure selected from the group consisting of direct writing, direct deposition, direct printing, layer-by-layer deposition, direct additive manufacturing, solid freeform fabrication, and layered manufacturing. 17. The method of claim 15, wherein the more than one criteria are selected from the group consisting of temperature and strain, temperature and stress, temperature and pressure, temperature and level of hydrogen, and temperature and humidity. 18. The method of making an optical fiber sensor of claim 15, wherein the plurality of bands is formed by removing coating material from a surface of the optical fiber. 19. The method of claim 18, wherein the coating material is removed by femtosecond laser etching of the surface of the optical fiber. 20. The method of claim 18, wherein the coating material is removed by selectively applying Hydrofluoric acid to the surface of the optical fiber. 21. The method of claim 18, wherein the more than one criteria are selected from the group consisting of temperature and strain, temperature and force, temperature and stress, temperature and pressure, and temperature and liquid concentration. 22. The method of claim 18, wherein the coating material is removed from a circumference of the optical fiber to form a plurality of circumferential bands along the optical fiber, the bands being formed having a depth of up to 40 μm from the surface of the optical fiber. 23. The method of claim 22, wherein the bands have a length of up to one third of a length of the FBG, and each band is spaced from an adjacent one of said bands at a distance of up to one third of the length of the FBG. 24. The method of claim 15, wherein the plurality of bands comprise a coating applied on an exterior of the optical fiber.
Willsch, Michael; Bosselmann, Thomas; Sanjana, Zal; Theune, Nils, Method and apparatus of monitoring temperature and strain by using fiber Bragg grating (FBG) sensors.
Eggleton Benjamin John ; Jackman Rebecca Jane ; Rogers John A. ; Strasser Thomas A., Method for making optical fiber devices having variable thickness metal coatings.
Karl R. Amundson ; Benjamin John Eggleton ; Rebecca Jane Jackman ; John A. Rogers ; Thomas Andrew Strasser, Thermally adjustable optical fiber grating device with packaging for enhanced performance.
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