Optical fiber long period sensor having a reactive coating

US 5,864,641 A
Filed: 04/11/1997
Issued: 01/26/1999
Est. Priority Date: 04/11/1997
Status: Expired due to Term

First Claim

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1. An optical sensor comprising an optical waveguide, at least one long period grating disposed within the optical waveguide and a reactive coating positioned in an operable relationship to the long period grating wherein the reactive coating causes the long period grating to produce a wavelength transmission spectrum functionally dependent on a parameter sensed.

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Abstract

An optical sensor is provided. The optical sensor comprises an optical waveguide, at least one long period grating disposed within the optical waveguide and a reactive coating positioned in an operable relationship to the long period grating wherein the reactive coating causes the long period grating to produce a wavelength transmission spectrum functionally dependent on a parameter sensed. Such sensors may be used to measure physical, electrical and chemical parameters within a single system.

230 Citations

23 Claims

1. An optical sensor comprising an optical waveguide, at least one long period grating disposed within the optical waveguide and a reactive coating positioned in an operable relationship to the long period grating wherein the reactive coating causes the long period grating to produce a wavelength transmission spectrum functionally dependent on a parameter sensed.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The optical sensor according to claim 1, wherein the reactive coating is selected from the group consisting of:
    - a physically reactive coating, an electronically reactive coating, and a chemically reactive coating.
  - 3. The optical sensor according to claim 1, wherein the optical waveguide is selected from the group consisting of:
    - a planar optical waveguide;
      
      an integrated optic waveguide; and
      
      a fiber optic waveguide.
  - 4. The optical sensor according to claim 3, wherein the optical waveguide is a fiber optic waveguide having a core, a cladding surrounding the core, and at least one long period grating disposed within the core.
  - 5. The optical sensor according to claim 4, wherein the reactive coating is disposed on the cladding.
  - 6. The optical sensor according to claim 4, wherein the reactive coating is disposed on the core.

7. An optical sensor comprising an optical waveguide, at least one long period grating disposed within the optical waveguide wherein the long period grating has a plurality of index perturbations of width w spaced apart by a periodic distance where 10 μ
- m≦
  
  ≦
  
  1500 μ
  
  m, and a reactive coating positioned in an operable relationship to the long period grating wherein the reactive coating causes the long period grating to produce a wavelength transmission spectrum functionally dependent on a parameter sensed.
- View Dependent Claims (8)
- - 8. The optical sensor according to claim 7, wherein the periodic distance is irregular.

9. An optical sensor comprising a fiber optic waveguide having a core, a cladding surrounding the core, and at least one long period grating disposed within the core, wherein the long period grating has a plurality of index perturbations of width w spaced apart by a periodic distance where 10 μ
- m≦
  
  ≦
  
  1500 μ
  
  m, and a reactive coating positioned in an operable relationship to the long period grating wherein the reactive coating causes the long period grating to produce a wavelength transmission spectrum functionally dependent on a parameter sensed.
- View Dependent Claims (10)
- - 10. The optical sensor according to claim 9, wherein the periodic distance is irregular.

11. An optical sensor comprising an optical waveguide, a plurality of long period gratings disposed within the optical waveguide, and a plurality of reactive coatings positioned in an operable relationship to the long period gratings wherein each reactive coating causes each long period grating to produce a wavelength transmission spectrum functionally dependent on each parameter sensed.
- View Dependent Claims (12, 13, 14, 15, 21)
- - 12. The optical sensor according to claim 11, wherein the optical waveguide is selected from the group consisting of:
    - a planar optical waveguide;
      
      an integrated optic waveguide; and
      
      a fiber optic waveguide.
  - 13. The optical sensor according to claim 12, wherein the optical waveguide is a fiber optic waveguide having a core, a cladding surrounding the core and a plurality of long period gratings disposed within the core.
  - 14. The optical sensor according to claim 13, wherein each reactive coating is disposed on the cladding.
  - 15. The optical sensor according to claim 13, wherein each reactive coating is disposed on the core.
  - 21. The optical sensor according to claim 11, wherein each reactive coating is different.

16. An optical sensor comprising an optical waveguide, wherein the optical waveguide is a fiber optic waveguide having a core, a cladding surrounding the core and a plurality of long period gratings disposed within the core, wherein each long period grating has a plurality of index perturbations of width w spaced apart by a periodic distance where 10 μ
- m≦
  
  ≦
  
  1500 μ
  
  m; and
  
  a plurality of reactive coatings positioned in an operable relationship to the long period gratings wherein each reactive coating causes each long period grating to produce a wavelength transmission spectrum functionally dependent on each parameter sensed.
- View Dependent Claims (17)
- - 17. The optical sensor according to claim 16, wherein the periodic distance is irregular.

18. An optical sensor comprising an optical waveguide, wherein the optical waveguide is a fiber optic waveguide having a core, a cladding surrounding the core and a plurality of long period gratings disposed within the core;
- and a plurality of reactive coatings positioned in an operable relationship to the long period gratings wherein each reactive coating causes each long period grating to produce a wavelength transmission spectrum functionally dependent on each parameter sensed and wherein each reactive coating is different.

19. An optical sensor comprising an optical waveguide, a plurality of long period gratings disposed within the optical waveguide wherein each long period grating has a plurality of index perturbations of width w spaced apart by a periodic distance where 10 μ
- m≦
  
  ≦
  
  1500 μ
  
  m; and
  
  a plurality of reactive coatings positioned in an operable relationship to the long period gratings wherein each reactive coating causes each long period grating to produce a wavelength transmission spectrum functionally dependent on each parameter sensed.
- View Dependent Claims (20)
- - 20. The optical sensor according to claim 19, wherein the periodic distance is irregular.

22. An optical sensor comprising:
- a fiber optic waveguide having a core, a cladding surrounding the core, and at least one long period grating disposed within the core; and
  
  a reactive coating disposed on the cladding and positioned in an operable relationship to the long period grating wherein the reactive coating causes the long period grating to produce a wavelength transmission spectrum functionally dependent on a parameter sensed.

23. An optical sensor comprising:
- a fiber optic waveguide having a core, a cladding surrounding the core, and a plurality of long period gratings disposed within the core; and
  
  a plurality of reactive coatings, each coating disposed on the cladding and positioned in an operable relationship to each long period grating, wherein each reactive coating causes the long period grating to produce a wavelength transmission spectrum functionally dependent on each parameter sensed.

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Litigation Campaign Assessment

Current Assignee
Intuitive Surgical Operations, Inc. (Intuitive Surgical Holdings, LLC)
Original Assignee
F&B LLP
Inventors
Jones, Mark E., Murphy, Kent A.
Primary Examiner(s)
Healy, Brian

Application Number

US08/838,873
Time in Patent Office

655 Days
Field of Search

385/12, 385/13, 385/15, 385/37, 385/123, 385/125, 385/126, 385/127, 385/141, 250/227.14, 250/227.18, 250/227.23
US Class Current

385/12
CPC Class Codes

B33Y 80/00   Products made by additive m...

G01D 5/35345   using Amplitude variations ...

G01D 5/35377   Means for amplifying or mod...

G01N 21/774   the reagent being on a grat...

G02B 6/02095   Long period gratings, i.e. ...

G02B 6/02104   characterised by the coatin...

G02B 6/02195   characterised by means for ...

Optical fiber long period sensor having a reactive coating

First Claim

6 Assignments

0 Petitions

Accused Products

Abstract

230 Citations

23 Claims

Specification

Solutions

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Optical fiber long period sensor having a reactive coating

First Claim

6 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

230 Citations

23 Claims

Specification

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Solutions

Use Cases

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