Method and apparatus for side pumping an optical fiber

US 5,854,865 A
Filed: 12/07/1995
Issued: 12/29/1998
Est. Priority Date: 12/07/1995
Status: Expired due to Term

First Claim

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1. An optical fiber, comprising:

a cladding;

a core disposed within said cladding, said core comprising an outer core and an inner core, said inner core being disposed within said outer core, said inner core being doped with a preselected gain material;

a groove extending through said cladding into said outer core, said groove having a surface disposed effective to specularly reflect light from a preselected direction and of a preselected frequency, into said outer core, wherein said light passes through said cladding is reflected by said groove surface and propagates down said outer core facilitating absorption of said light into said inner core.

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Abstract

A technique for the efficient coupling of pump light into a fiber by injeng the light through the side of a fiber leaving the fiber ends accessible to input and output coupling. This technique relies on the fabrication of a groove or a micro-prism into the side of the fiber. The groove shape is adapted effective to the variables of light wavelength, orientation of the source and variables relating to fiber construction so as to allow the efficient injection of pump light. Light emerging from a laser diode or other suitable means for launching light placed on the opposite side of the fiber, and in proximity to the fiber wall, propagates laterally through the fiber and impinges on the sides of the groove. The vertical rays impinging on the grove facets are specularly reflected and directed along the horizontal fiber axis of the outer core. By employing a reflective coating on the groove, the reflectivity of the groove facets approach 100% for a wide range of incidence angles. In this manner one can launch external optical signals into an optical fiber.

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25 Claims

1. An optical fiber, comprising:
- a cladding;
  
  a core disposed within said cladding, said core comprising an outer core and an inner core, said inner core being disposed within said outer core, said inner core being doped with a preselected gain material;
  
  a groove extending through said cladding into said outer core, said groove having a surface disposed effective to specularly reflect light from a preselected direction and of a preselected frequency, into said outer core, wherein said light passes through said cladding is reflected by said groove surface and propagates down said outer core facilitating absorption of said light into said inner core.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. The fiber of claim 1, wherein said groove comprises a pair of faces disposed generally opposite of one another along the length of said fiber, said faces intersecting one another at about a 45°
    - angle.
  - 3. The fiber of claim 2, wherein one of said faces is disposed at about 45°
    - to said length of said fiber, and the other of said faces is disposed at about 90°
      
      to said length.
  - 4. The fiber of claim 3, wherein said fiber further comprises a reflective coating disposed on said one of said faces.
  - 5. The fiber of claim 1, wherein said groove comprises a pair of faces disposed generally opposite of one another along the length of said fiber, said faces intersecting one another at about a 45°
    - angle.
  - 6. The fiber of claim 5, wherein one of said faces is disposed at about 45°
    - to said length of said fiber, and the other of said faces is disposed at about 90°
      
      to said length.
  - 7. The fiber of claim 6, wherein said fiber further comprises a reflective coating disposed on said one of said faces.
  - 8. The fiber of claim 1, wherein said fiber comprises at least one additional groove, said at least one additional groove having a surface disposed effective to specularly reflect light from a preselected direction and of a preselected frequency into said core.
  - 9. The optical fiber of claim 1 comprising at least one groove extending through said cladding into said outer core, said at least one groove having at least one surface disposed effective to specularly reflect light from preselected directions and of preselected frequencies, into said outer core facilitating absorption into said inner core.

10. A method of injecting light of a preselected frequency into an optical fiber, said method comprising:
- providing a groove in said fiber, said groove extending through a cladding into a core, said groove having a surface disposed effective to specularly reflect light from a preselected direction and of a preselected frequency, into said core;
  
  directing light of said preselected frequency onto said groove wherein said light passes through said cladding is reflected by said groove surface and propagates down said core.
- View Dependent Claims (11, 12)
- - 11. The method of claim 10, wherein:
    - said core is an outer core, said fiber comprises an inner core disposed within said outer core, said groove extends into said outer core, and said inner core comprises an optically active preselected gain material, andwherein said reflecting of said light down said outer core is effective to excite said dopant by optical coupling of said light between said inner and said outer core.
  - 12. The method of claim 10 comprising at least one optical fiber, each of said fibers comprising a cladding, an inner core and an outer core and having at least one groove extending through said cladding into said outer core.

13. An optical fiber, comprising:
- a cladding;
  
  a core disposed within said cladding;
  
  said core comprising an outer core and an inner core, said inner core being disposed within said outer core, said inner core being doped with a preselected gain material;
  
  a groove extending through said cladding into said outer core said groove having a surface disposed effective to provide total internal reflection of injected light from a preselected direction and of a preselected frequency into said outer core;
  
  wherein said light passes through said cladding, is reflected by said groove surface and propagates down said outer core facilitating absorption of said light into said inner core.
- View Dependent Claims (14, 15, 16, 17, 18, 19, 20)
- - 14. The fiber of claim 13, wherein said groove comprises a pair of faces disposed generally opposite of one another along the length of said fiber, said faces intersecting one another at about a 90°
    - angle.
  - 15. The fiber of claim 14, wherein one of said faces is disposed at about 45°
    - to said length of said fiber, and the other of said/faces is disposed at about 90°
      
      to said length.
  - 16. The fiber of claim 15, wherein said fiber further comprises a reflective coating disposed on at least one of said faces.
  - 17. The fiber of claim 13, wherein said groove comprises a pair of faces disposed generally opposite of one another along the length of said fiber, said faces intersecting one another at about a 90°
    - angle.
  - 18. The fiber of claim 17, wherein one of said faces is disposed at about 45°
    - to said length of said fiber, and the other of said faces is disposed at about 90°
      
      relative to said length.
  - 19. The fiber of claim 18, wherein said fiber further comprises a reflective coating disposed on at least one of said faces.
  - 20. The fiber of claim 13, wherein said fiber comprises at least one additional groove, said at least one additional groove having a surface disposed effective to specularly reflect light from a preselected direction and of a preselected frequency into said core.

21. A method of injecting light of a preselected frequency into an optical fiber, said method comprising:
- providing a groove in said fiber, said groove extending through the cladding into the outer core, said groove having a surface disposed effective to specularly reflect light from a preselected direction and of a preselected frequency into said outer core, said fiber having an inner core disposed within said outer core, said inner core comprising an optically active gain material;
  
  directing light of said preselected frequency onto said groove from said preselected direction;
  
  wherein said directing of said light is effective to excite said gain material by optical overlap of said light in said outer core with said inner core, said light in said inner core being amplified.
- View Dependent Claims (22)
- - 22. The method of claim 21, wherein:
    - said core is an outer core, said fiber comprises an inner core disposed within said outer core, said groove extends into said outer core, and said inner core comprises an optically active preselected gain material, andwherein said directing of said light is effective to excite said dopant by optical overlap of said light in said outer core with said outer core, said light in said inner core being amplified.

23. An optical fiber amplifier, comprising:
- a clading;
  
  a core disposed within said cladding;
  
  said core comprising an outer core and an inner core, said inner core being disposed within said outer core, said inner core being doped with a preselected gain material;
  
  a groove extending through said cladding into said outer core said groove having a surface disposed effective to specularly reflect light from a preselected direction and of a preselected frequency, into said outer core facilitating absorption into said inner core;
  
  wherein said light absorbed into said inner core is amplified and propagates upetrubed through said inner core.
- View Dependent Claims (24, 25)
- - 24. The optical fiber amplifier of claim 23 comprising at least one groove extending through said cladding into said outer core, said at least one groove having at least one surface disposed effective to specularly reflect light from preselected directions and of preselected frequencies, into said outer core facilitating absorption into said inner core.
  - 25. The optical fiber amplifier of claim 23 comprising at least one optical fiber, each of said fibers comprising a cladding, an inner core and an outer core and having at least one groove extending through said cladding into said outer core.

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Current Assignee
the united states of america as represented by the secretary of the navy
Original Assignee
the united states of america as represented by the secretary of the navy
Inventors
Goldberg, Lew
Primary Examiner(s)
Sanghavi, Hemang

Application Number

US08/568,859
Time in Patent Office

1,118 Days
Field of Search

385/31, 385/49, 385/88, 385/32, 385/123, 372/6
US Class Current

385/31
CPC Class Codes

G02B 6/2817   using reflective elements t...

G02B 6/2852   using tapping light guides ...

G02B 6/4214   the intermediate optical el...

H01S 3/06708   Constructional details of t...

H01S 3/094003   the pumped medium being a f...

H01S 3/094069   Multi-mode pumping

Method and apparatus for side pumping an optical fiber

First Claim

1 Assignment

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Accused Products

Abstract

109 Citations

25 Claims

Specification

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Method and apparatus for side pumping an optical fiber

First Claim

1 Assignment

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Subscription Required

0 Petitions

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Accused Products

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Abstract

109 Citations

25 Claims

Specification

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Use Cases

Quick Links

Others