Tunable optical fiber package

US 6,240,220 B1
Filed: 07/29/1998
Issued: 05/29/2001
Est. Priority Date: 07/29/1998
Status: Expired due to Fees

First Claim

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1. An optical fiber package comprising:

an optical fiber portion having at least one grating between a first fiber portion end and a second fiber portion end, the grating having an optical characteristic which varies with strain;

a fiber support member comprising a base, a first rigid fiber holder body, and a second rigid fiber holder body, the base attached to the first fiber holder at a first joint, the base attached to the second fiber holder at a second joint, the first and second fiber holders coupled to the first and second ends of the optical fiber, respectively; and

a control actuator having first and second surfaces, actuation of the control actuator displacing the first and second surfaces relative to each other, the first surface engaging the base and the second surface engaging the first and second fiber holders of the fiber support member, the actuation of said control actuator pivotally displacing the first and second fiber holders of the fiber support member about the first and second joints, respectively, such that a uniform strain is created in the optic fiber along the grating.

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Abstract

A fiber optic package and methods for varying the tension within a fiber Bragg grating or other fiber-based optical device subjects a fiber (having the fiber Bragg grating written therein) to a controlled strain. The resulting strain in the fiber produces a desired and predetermined change in the grating wavelength.

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18 Claims

1. An optical fiber package comprising:
- an optical fiber portion having at least one grating between a first fiber portion end and a second fiber portion end, the grating having an optical characteristic which varies with strain;
  
  a fiber support member comprising a base, a first rigid fiber holder body, and a second rigid fiber holder body, the base attached to the first fiber holder at a first joint, the base attached to the second fiber holder at a second joint, the first and second fiber holders coupled to the first and second ends of the optical fiber, respectively; and
  
  a control actuator having first and second surfaces, actuation of the control actuator displacing the first and second surfaces relative to each other, the first surface engaging the base and the second surface engaging the first and second fiber holders of the fiber support member, the actuation of said control actuator pivotally displacing the first and second fiber holders of the fiber support member about the first and second joints, respectively, such that a uniform strain is created in the optic fiber along the grating.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
- - 2. The package as claimed in claim 1, wherein the at least one grating comprises a plurality of fiber Bragg gratings, the optical characteristics comprising a resonant wavelength of the Bragg gratings, a change in strain inducing a change in the resonant wavelength in the fiber, the change in strain within a predetermined range of strain.
  - 3. The package as claimed in claim 2, wherein the range of strain will result in a relative stretching between at least about 0.1% and 1.5% of a length of the fiber Bragg grating.
  - 4. The package as claimed in claim 2, wherein the resonant wavelength varies from an original value to a value between approximately 10 nm to 20 nm throughout the range of strain.
  - 5. The package as claimed in claim 1, wherein the displacement of the fiber support member varies with changes in an elongation of the control actuator to provide a predetermined correlation between the optical characteristics of the fiber and the elongation.
  - 6. The package as claimed in claim 1, wherein the fiber support member defines a convex surface having a fiber guide formed into the convex surface which extends along the convex surface, the guide slidably receiving the optical fiber to couple and correlate changes in the displacement of the fiber support member with uniform changes in the strain of the optical fiber.
  - 7. The package as claimed in claim 1, wherein the control actuator comprises a plurality of piezoelectric segments, each said segment being electrically isolated from one another.
  - 8. The package as claimed in claim 7, wherein a change in strain of the segment induces a change in the displacement of the fiber support member, the change in displacement inducing a strain in the fiber causing a change in resonant wavelength so that the resonant wavelength of the fiber within the package is made uniformly variable throughout a predetermined range of strain.
  - 9. The package as claimed in claim 1, wherein each joint comprises an elastic joint comprising copper/beryllium alloy.
  - 10. The package as claimed in claim 1, wherein each fiber holder comprises a fiber guiding groove for receiving said optical fiber.
  - 11. The package as claimed in claim 1, wherein each of said fiber holders comprises an adhesive reservoir, said reservoir holding an adhesive for coupling said optical fiber to said fiber holders.
  - 12. The package as claimed in claim 1, wherein the fiber support member comprises a magnification structure which transforms a linear displacement of the control actuator into the rotation of each of said fiber holders.
  - 13. The package as claimed in claim 1, wherein the fiber support member comprises stainless steel.

14. An optical fiber package comprising:
- an optical fiber having at least one grating with an optical characteristic which varies with strain;
  
  a fiber support member receiving at least a portion of the optical fiber;
  
  a control actuator coupled to the fiber support member, said control actuator displacing the fiber support member such that a uniform strain is created in the optic fiber along the grating; and
  
  a second fiber support member, the first fiber support member and the second fiber support member each receiving at least a portion of the optical fiber, each coupled to opposing ends of the control actuator, the control actuator inducing a relative displacement between the first fiber support member and the second fiber support member, thereby creating a strain in the optic fiber, wherein the optical fiber is wrapped multiple times around each of said fiber support members.

15. A tunable optical fiber package comprising:
- a plurality of fiber support members, each fiber support member defining a convex surface having a channel formed into the convex surface and extending along the convex surface;
  
  an optical fiber having an optical characteristic which varies with strain, the optical fiber riding in the channels and affixed to the fiber support members so that a displacement of the fiber support members correlates with changes in the strain of the optical fiber; and
  
  a control actuator having an actuation axis, the displacement of the fiber support members being effected in response to a signal by actuation of the control actuator along said axis and normal to a portion of said optical fiber in said channel, the displacement of the fiber support member imposing a uniform strain on the fiber such that the strain causes a uniform variation in the optical characteristic of the optic fiber.

16. A method comprising:
- actuating a control actuator with an actuation stroke along an actuation axis in response to a command signal;
  
  pivotally displacing a fiber support member with the actuation stroke so that the fiber support member moves by a displacement stroke along a displacement axis, the displacement stroke being greater than the actuation stroke;
  
  deforming a span of an optical fiber with the displacement stroke, while the optical fiber is affixed to said fiber support member, to induce a uniform strain throughout the span, the optical fiber having an optical characteristic which varies with strain; and
  
  rollingly engaging the fiber with a rounded surface of the fiber support member to inhibit damage of the fiber when the fiber support member pivots;
  
  wherein the strain in the fiber causes a uniform change in a wavelength response of the fiber throughout the span.
- View Dependent Claims (17, 18)
- - 17. The method of claim 16, wherein the control actuator is actuated by
- 18. The method of claim 16, wherein the actuation axis is substantially normal to the displacement axis.

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Current Assignee
JDS Uniphase Corporation (Lumentum Holdings Inc.)
Original Assignee
E-Tek Dynamics Inc. (Lumentum Holdings Inc.)
Inventors
Zhou, Feng-Qing, Pan, Jing-Jong
Primary Examiner(s)
Spyrou, Cassandra
Assistant Examiner(s)
Treas, Jared

Application Number

US09/124,102
Time in Patent Office

1,035 Days
Field of Search

385/10, 385/13, 385/24, 385/37, 359/128, 359/130
US Class Current

385/13
CPC Class Codes

G02B 6/022   using mechanical stress, e....

G02B 6/29317   Light guides of the optical...

G02B 6/29395   configurable, e.g. tunable ...

Tunable optical fiber package

First Claim

2 Assignments

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Abstract

Citations

18 Claims

Specification

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Tunable optical fiber package

First Claim

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Abstract

Citations

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Specification

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