Optical fiber power taps

US 3,982,123 A
Filed: 11/11/1974
Issued: 09/21/1976
Est. Priority Date: 11/11/1974
Status: Expired due to Term

First Claim

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1. An arrangement for tapping optical power from an intermediate portion of an optical fiber waveguide without requiring that the fiber be terminated or broken, said fiber including a guiding region in which the optical power is essentially confined, and including a medium surrounding said guiding region, said arrangement being characterized by:

a body of dielectric material disposed in a coupling relationship to an intermediate length of said fiber, said body having an index of refraction which is approximately equal to or greater than the index of refraction of the medium surrounding said guiding region of said fiber and is selected to couple only a minor portion of the optical power propagating in said fiber waveguide guiding region toward a surface of said dielectric body laterally offset from said guiding region;

a photodetector contacting said laterally offset surface of said dielectric body and including an active area responsive to the wavelength of the optical signal to be propagated through said fiber, said active area of said photodetector being oriented to intercept the optical power coupled out of said guiding region of said fiber by said dielectric body; and

in which said guiding region of said fiber comprises an inner core formed of a low optical loss material, said medium surrounding the guiding region comprising an outer cladding of lower refractive index than that of said inner core; and

said dielectric body has an index of refraction greater than about 0.8 times the index of refraction of said outer cladding of said fiber.

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Abstract

There is disclosed a variety of arrangements for tapping a portion of the signal power from an optical fiber waveguide without requiring that the fiber be terminated or broken. Power is coupled out of the fiber waveguide, which typically includes an inner core surrounded by a lower refractive index outer cladding, by disposing a dielectric body in a coupling relationship with an intermediate length of the fiber from which all or most of the cladding has been removed or, alternatively, which is bent to cause a portion of the power to radiate out of the inner core into the outer cladding of the fiber. The dielectric body couples power out of the fiber provided its index of refraction is approximately equal to, or greater than, that of the fiber cladding material. The power coupled out by the dielectric body is converted to a representative electrical signal by a photodetector disposed adjacent to the dielectric body.

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6 Claims

1. An arrangement for tapping optical power from an intermediate portion of an optical fiber waveguide without requiring that the fiber be terminated or broken, said fiber including a guiding region in which the optical power is essentially confined, and including a medium surrounding said guiding region, said arrangement being characterized by:
- a body of dielectric material disposed in a coupling relationship to an intermediate length of said fiber, said body having an index of refraction which is approximately equal to or greater than the index of refraction of the medium surrounding said guiding region of said fiber and is selected to couple only a minor portion of the optical power propagating in said fiber waveguide guiding region toward a surface of said dielectric body laterally offset from said guiding region;
  
  a photodetector contacting said laterally offset surface of said dielectric body and including an active area responsive to the wavelength of the optical signal to be propagated through said fiber, said active area of said photodetector being oriented to intercept the optical power coupled out of said guiding region of said fiber by said dielectric body; and
  
  in which said guiding region of said fiber comprises an inner core formed of a low optical loss material, said medium surrounding the guiding region comprising an outer cladding of lower refractive index than that of said inner core; and
  
  said dielectric body has an index of refraction greater than about 0.8 times the index of refraction of said outer cladding of said fiber.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The tapping arrangement of claim 1 in whichsaid outer cladding of said fiber is at least partially removed along said intermediate length of said fiber to have a thickness less than three wavelengths of the optical signal to be propagated through said fiber;
    - andsaid intermediate length of said fiber is disposed in contact with said dielectric body.
  - 3. The tapping arrangement of claim 2 in whichsaid dielectric body is formed of an optically transparent cement and is disposed in contact with the active area of said photodetector;
    - andsaid intermediate length of said fiber is disposed in contact with said cement while said cement is in an unhardened state to provide an area of contact between said intermediate length and said cement at a position to provide nondirectional coupling from said intermediate length of fiber to the active area of said photodetector, said cement being allowed to harden to fix said fiber in place.
  - 4. The tapping arrangement of claim 1 in whichsaid intermediate length of said fiber is bent into a radius R sufficient to cause a selected minor portion of the optical power to be propagated therein to radiate out of said inner core into said outer cladding;
    - andsaid cladding of said intermediate length of said fiber is disposed in contact with said dielectric body.
  - 5. The tapping arrangement of claim 1 further includinga holder having a groove cut into a major surface thereof, the groove having a curved path of radius of curvature R and dimensions comparable to but slightly greater than the outer diameter of said fiber so that said fiber can be inserted into said groove, the radius of curvature of the path of said groove being sufficient to bend said fiber into a radius to cause a portion of the optical power to be propagated therein to radiate out of said inner core into said outer cladding, said holder being further adapted to hold said photodetector in a position spaced apart from said groove;
    - and in whichsaid dielectric body comprises a coupling region formed in said major surface of said holder and connecting the groove to the active area of said photodetector, said holder being formed of a dielectric material with an index of refraction less than that of said coupling region.
  - 6. The tapping arrangement of claim 5 further including a cover disposed over said major surface of said holder to hold said fiber in the groove.

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Current Assignee
Bell Telephone Laboratories, Inc. (Nokia Corporation)
Original Assignee
Bell Telephone Laboratories, Inc. (Nokia Corporation)
Inventors
Li, Tingye, Muska, Willis Martin, Goell, James Emanuel
Primary Examiner(s)
Stolwein, Walter

Application Number

US05/522,577
Time in Patent Office

680 Days
Field of Search

250/227, 350/96 R, 350/96 C, 350/96 B, 350/96 WG
US Class Current

250/227.24
CPC Class Codes

G02B 6/24   Coupling light guides

G02B 6/26   Optical coupling means G02B...

G02B 6/2852   using tapping light guides ...

G02B 6/34   utilising prism or grating ...

G02B 6/4259   of the transparent type

G02B 6/4286   Optical modules with optica...

G02B 6/4289   by inducing bending, microb...

Optical fiber power taps

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Optical fiber power taps

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