Side-firing laser optical fiber probe and method of making same

US 5,537,499 A
Filed: 08/18/1994
Issued: 07/16/1996
Est. Priority Date: 08/18/1994
Status: Expired due to Term

First Claim

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1. A probe for transmitting laser light and redirecting the light laterally relative to the probe comprising:

an optical fiber having a core and means surrounding said core for protecting said core, said fiber having a distal end section terminating in an end having at least one forwardly inclined surface, a tubular member surrounding the distal end section providing a gas chamber for the distal end section and inclined surface, said tubular member having a close end to confine the distal end section and inclined surface to said gas chamber thereby providing a gas interface with said surface, said distal end section having a portion thereof generally opposite the inclined surface united to a portion of the tubular member, said portions of the distal end section of the fiber and tubular member being fused together to provide continuous material through which the light is redirected from said inclined surface, whereby light from a laser propagated down the optical fiber is redirected laterally from said inclined surface through the united portions of the fiber and tubular member and laterally of the probe.

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Abstract

A laser optical fiber probe has a silica fiber core with an end terminating in an inclined surface. A silica capsule encloses the end of the fiber and locates the end of the fiber in a gas chamber. Localized heat fuses the end of the fiber opposite the inclined surface to the capsule thereby eliminating secondary light reflections.

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45 Claims

1. A probe for transmitting laser light and redirecting the light laterally relative to the probe comprising:
- an optical fiber having a core and means surrounding said core for protecting said core, said fiber having a distal end section terminating in an end having at least one forwardly inclined surface, a tubular member surrounding the distal end section providing a gas chamber for the distal end section and inclined surface, said tubular member having a close end to confine the distal end section and inclined surface to said gas chamber thereby providing a gas interface with said surface, said distal end section having a portion thereof generally opposite the inclined surface united to a portion of the tubular member, said portions of the distal end section of the fiber and tubular member being fused together to provide continuous material through which the light is redirected from said inclined surface, whereby light from a laser propagated down the optical fiber is redirected laterally from said inclined surface through the united portions of the fiber and tubular member and laterally of the probe.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
- - 2. The probe of claim 1 wherein:
    - the portion of the distal end section and the portion of the tubular member are fused together with localized heat.
  - 3. The probe of claim 1 wherein:
    - said surface is inclined at an angle of between 37 to 45 degrees relative to the longitudinal axis of the fiber.
  - 4. The probe of claim 1 wherein:
    - said surface is a polished surface.
  - 5. The probe of claim 1 wherein:
    - the means for protecting said core includes fused silica means surrounding said core.
  - 6. The probe of claim 1 wherein:
    - the end of the distal end section has a plurality of inclined surfaces, said distal end section having a portion generally opposite each inclined surface united to separate portions of the tubular member whereby light from a laser propagated down the fiber is redirected laterally from each of said surfaces through the united portions of the fiber and tubular member and laterally out of the probe.
  - 7. The probe of claim 6 wherein:
    - the portions of the distal end section and the separate portions of the tubular member are fused together to provide continuous material through which the light is redirected from said inclined surfaces.
  - 8. The probe of claim 1 wherein:
    - the distal end section has a V-shaped groove with two inclined surfaces, said distal end section having opposite portions united to separate portions of the tubular member whereby light from a laser propagated down the optical fiber is redirected laterally from each of said surfaces through the united portions of the fiber, and tubular member and laterally of the probe.
  - 9. The probe of claim 8 wherein:
    - the opposite portions of the distal end section and the separate portions of the tubular member are fused together to provide continuous material through which the light is redirected from said two inclined surfaces.
  - 10. The probe of claim 1 wherein:
    - the end of the distal end section has a cone-shaped recess with a cone surface, said distal end section having an annular portion thereof surrounding said cone surface united with an annular portion of the tubular member whereby light from a laser propagated down the optical fiber is redirected laterally from the cone surface through the united annular portions of the fiber and tubular member and laterally of the probe.
  - 11. The probe of claim 10 wherein:
    - the annular portion of the distal end section and the annular portion of the tubular member are fused together to provide continuous material through which the light is redirected from said cone surface.
  - 12. The probe of claim 10 wherein:
    - the cone surface is a polished cone surface.
  - 13. The probe of claim 10 wherein:
    - the cone surface has an angle of between 37 to 45 degrees relative to the longitudinal axis of the fiber.

14. A probe for transmitting laser light and redirecting the light laterally relative to the probe comprising:
- an optical fiber having silica fiber core, means surrounding said fiber core for protecting said fiber core, said core having a distal end section terminating in an end having a forwardly inclined surface, a silica capsule surrounding the distal end section and secured to said means providing a gas chamber for the distal end section and inclined surface, said capsule having a closed end to confine the distal end section and inclined surface to said gas chamber thereby providing a gas interface with said surface, said distal end section having a portion thereof generally opposite the inclined surface united to a portion of the capsule by fusing the silica of the fiber core with the silica of the capsule whereby light from a laser propagated down the optical fiber core is redirected laterally from said inclined surface through the united portions of the fiber core and capsule and laterally of the probe.
- View Dependent Claims (15, 16, 17, 18, 19, 20, 21, 22)
- - 15. The probe of claim 14 wherein:
    - the portion of the distal end section and the portion of the capsule are fused together with localized heat.
  - 16. The probe of claim 14 wherein:
    - said surface is inclined at an angle of between 37 to 45 degrees relative to the longitudinal axis of the fiber core.
  - 17. The probe of claim 14 wherein:
    - the means for protecting said fiber core includes fused silica means surrounding said silica fiber core.
  - 18. The probe of claim 14 wherein:
    - the end of the distal end section has a plurality of inclined surfaces, said distal end section having a portion generally opposite each inclined surface united to separate portions of the capsule whereby light from a laser propagated down the fiber core is redirected laterally from each of said surfaces through the silica of the united portions of the fiber core and capsule and laterally of the probe.
  - 19. The probe of claim 14 wherein:
    - the distal end section has a V-shaped groove with two inclined surfaces, said distal end section having opposite portions united to separate portions of the capsule whereby light from a laser propagated down the fiber core is redirected laterally from each of said surfaces through the silica of the united portions of the fiber core, and capsule and laterally of the probe.
  - 20. The probe of claim 14 wherein:
    - the end of the distal end section has a cone-shaped recess with a cone surface, said distal end section having an annular portion thereof surrounding said cone surface united with an annular portion of the capsule whereby light from a laser propagated down the fiber core is redirected laterally from the cone surface through the silica of the united annular portions of the fiber core and capsule and laterally of the probe.
  - 21. The probe of claim 20 wherein:
    - the cone surface is a polished cone surface.
  - 22. The probe of claim 21 wherein:
    - the cone surface has an angle of between 37 to 45 degrees relative to the longitudinal axis of the fiber core.

23. A probe for transmitting laser light and redirecting the light laterally relative to the probe comprising:
- an optical fiber having fiber core, means surrounding said fiber core for protecting said fiber core, said core having a distal end section terminating in an end having at least one forwardly inclined surface, coating means secured to and covering said inclined surface operable to redirect laser light laterally relative to the probe, a capsule surrounding the distal end section including the coating means providing a gas chamber for the distal end section and coating means, said distal end section having a portion thereof fused to a portion of the capsule generally opposite the inclined surface whereby light from a laser propagated down the fiber core is redirected laterally from said coating means through the fused portions of the fiber core and capsule and laterally of the probe.
- View Dependent Claims (24, 25, 26, 27, 28)
- - 24. The probe of claim 23 wherein:
    - the fiber core and capsule have the same silica materials.
  - 25. The probe of claim 23 wherein:
    - the coating means comprises a metal film secured to and covering said inclined surface.
  - 26. The probe of claim 23 wherein:
    - the coating means comprises a dielectric material.
  - 27. The probe of claim 23 wherein:
    - the distal end section terminates in an end having a single inclined surface, said surface being covered with the coating means.
  - 28. The probe of claim 23 wherein:
    - the fiber core is a silica core, and a fused silica cladding surrounding the silica core.

29. A method of making a probe for transmitting laser light and laterally redirecting the light comprising:
- providing an elongated optical fiber including a core adapted to be coupled to a laser operable to direct light along said core, forming on the distal end of the fiber an angled optical surface for redirecting said light so that the light exits the fiber laterally of the fiber, enclosing the distal end of the fiber including the surface in a tubular member having a closed end to locate the surface in an enclosed gas chamber to provide a gas interface with the surface, and uniting a portion of the fiber opposite the surface to a portion of said tubular member with localized heat to fuse the portion of the fiber opposite the surface to the tubular member whereby light from a laser propagated down the fiber is redirected laterally from said surface through the united portions of the fiber and tubular member and laterally out of the probe.
- View Dependent Claims (30, 31, 32, 33, 34, 35, 36, 37)
- - 30. The method of claim 29 wherein:
    - the distal end of the fiber is cut at an angle of between 37 to 45 degrees relative to the longitudinal axis of the fiber.
  - 31. The method of claim 29 wherein:
    - the surface is polished.
  - 32. The method of claim 29 wherein:
    - the heat is light energy generated with a carbon dioxide laser.
  - 33. The method of claim 29 wherein:
    - the distal end of the fiber is cut to provide separate surfaces, and joining a first portion of the fiber opposite one surface to the tubular member and a second portion of the fiber opposite the other surface to the tubular member whereby the light from a laser propagated down the fiber is redirected laterally from each surface through the joined portions of the fiber and tubular member and laterally of the probe.
  - 34. The method of claim 33 wherein:
    - the distal end of the fiber is cut to provide each surface with an angle of between 37 to 45 degrees relative to the longitudinal axis of the fiber core.
  - 35. The method of claim 33 wherein:
    - each surface is polished.
  - 36. The method of claim 33 wherein:
    - the portions of the fiber core opposite the surfaces are joined to the tubular member with localized heat to fuse the portions of the fiber core opposite the surfaces to the tubular member.
  - 37. The method of claim 33 wherein:
    - the heat is light energy generated with a carbon dioxide laser.

38. A method of making a probe for transmitting laser light and laterally redirecting the light out of the probe comprising:
- providing an elongated optical fiber including a core adapted to be coupled to a laser operable to direct light along said fiber, said fiber having a distal end, cutting a recess with a cone surface in the core in the distal end of the fiber, joining an annular portion of the fiber opposite the cone surface to an annular portion of a tubular member whereby light from a laser propagated down the fiber core is redirected laterally from said cone surface through the joined annular portion of the fiber and tubular member and laterally out of the probe, and enclosing the distal end of the fiber including the cone surface in a tubular member having a closed end to locate the cone surface in an enclosed gas chamber to provide a gas interface with the cone surface.
- View Dependent Claims (39, 40, 41, 42)
- - 39. The method of claim 38 wherein:
    - the distal end of the fiber core is cut to provide the cone surface with an angle of between 37 to 45 degrees relative to the longitudinal axis of the fiber core.
  - 40. The method of claim 38 wherein:
    - the cone surface is polished.
  - 41. The method of claim 38 wherein:
    - the annular portion of the fiber is joined to the annular portion of the tubular member with localized heat to fuse the annual portion of the fiber opposite said cone surface and the annular portion of the tubular member.
  - 42. The method of claim 41 wherein:
    - the heat is light energy generated with a carbon dioxide laser.

43. A method of making a probe for transmitting laser light and laterally redirecting the light comprising:
- providing an elongated optical fiber having a core adapted to be coupled to a laser operable to direct light along said core, forming at least one inclined surface on the distal end of the fiber, coating the inclined surface with a coating material operable to redirect the light from the fiber laterally of the probe, enclosing the distal end of the fiber including the coating material in a capsule having a gas chamber and a closed end to locate said coating material within the gas chamber, and uniting a portion of the fiber opposite the surface to a portion of said capsule with heat to fuse the portions of the fiber and capsule together whereby light from a laser propagated down the fiber is redirected laterally from said coating material through the united portions of the fiber and capsule and laterally out of the probe.
- View Dependent Claims (44, 45)
- - 44. The method of claim 43 wherein:
    - the inclined surface is coated with a metal film.
  - 45. The method of claim 43 wherein:
    - the inclined surface is coated with dielectric material.

Specification

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Current Assignee
Laser Peripherals LLC
Original Assignee
Laser Peripherals LLC
Inventors
Brekke, John P.
Primary Examiner(s)
Lee, John D.

Application Number

US08/292,378
Time in Patent Office

698 Days
Field of Search

385/31, 385/33, 385/36, 385/76-78, 385/ 115, 385/117, 385/123, 385/126-128, 385/146, 385/147, 385/902, 372/6, 606/15-18, 606/27, 606/28
US Class Current

385/31
CPC Class Codes

A61B 18/24   with a catheter A61B18/26, ...

A61B 2018/2272   with reflective or refracti...

G02B 6/241   Light guide terminations

G02B 6/2552   reshaping or reforming of l...

G02B 6/3624   Fibre head, e.g. fibre prob...

Y10S 385/902   Nonbundle fiberscope devices

Side-firing laser optical fiber probe and method of making same

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

Citations

45 Claims

Specification

Solutions

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Side-firing laser optical fiber probe and method of making same

First Claim

1 Assignment

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Subscription Required

0 Petitions

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Accused Products

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Abstract

Citations

45 Claims

Specification

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Solutions

Use Cases

Quick Links