Optical amplification and transmission system

US 7,034,991 B2
Filed: 10/05/2001
Issued: 04/25/2006
Est. Priority Date: 12/22/2000
Status: Expired due to Fees

First Claim

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1. An apparatus comprising:

an optical transmission line including first, second and third fibers so that an optical signal travels through the transmission line from the first fiber, then through the second fiber and then through the third fiber to be output from an output end of the third fiber, the first fiber having a positive dispersion for a wavelength of the optical signal, the second fiber having a negative dispersion for the wavelength of the optical signal and a mode field diameter smaller than a mode field diameter of the first fiber, the third fiber having a mode field diameter smaller than the mode field diameter of the second fiber, pump light being provided to the third fiber from the output end so that the pump light travels through the transmission line in an opposite direction than the optical signal and causes Raman amplification to occur in the transmission line.

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Abstract

An optical transmission line including first, second and third fibers so that an optical signal travels through the first, second and third fibers, in order. The first fiber has a positive dispersion for a wavelength of the optical signal. The second fiber has a negative dispersion for the wavelength of the optical signal and a mode field diameter smaller than a mode field diameter of the first fiber. The third fiber has a mode field diameter smaller than the mode field diameter of the second fiber. Pump light is provided to the third fiber so that Raman amplification occurs in the transmission line.

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59 Claims

1. An apparatus comprising:
- an optical transmission line including first, second and third fibers so that an optical signal travels through the transmission line from the first fiber, then through the second fiber and then through the third fiber to be output from an output end of the third fiber, the first fiber having a positive dispersion for a wavelength of the optical signal, the second fiber having a negative dispersion for the wavelength of the optical signal and a mode field diameter smaller than a mode field diameter of the first fiber, the third fiber having a mode field diameter smaller than the mode field diameter of the second fiber, pump light being provided to the third fiber from the output end so that the pump light travels through the transmission line in an opposite direction than the optical signal and causes Raman amplification to occur in the transmission line.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24)
- - 2. An apparatus as in claim 1, wherein the third fiber has a negative dispersion for the wavelength of the optical signal.
  - 3. An apparatus as in claim 1, wherein the first fiber is directly connected to the second fiber, and the second fiber is directly connected to the third fiber.
  - 4. An apparatus as in claim 1, further comprising:
    - a pump light source providing the pump light; and
      
      an enclosure enclosing the pump light source and the third fiber.
  - 5. An apparatus as in claim 1, further comprising:
    - a pump light source providing the pump light;
      
      an optical amplifier amplifying the optical signal after being output from the output end of the third fiber; and
      
      an enclosure enclosing the pump light source, the optical amplifier and the third fiber.
  - 6. An apparatus as in claim 1, wherein the Raman amplification occurring in the second fiber substantially equalizes transmission loss in the second fiber.
  - 7. An apparatus as in claim 1, wherein the pump light travels through the third fiber, the second fiber and into the first fiber.
  - 8. An apparatus as in claim 1, wherein the third fiber is shorter than the second fiber, and the second fiber is shorter than the first fiber.
  - 9. An apparatus as in claim 2, wherein the first fiber is directly connected to the second fiber, and the second fiber is directly connected to the third fiber.
  - 10. An apparatus as in claim 2, further comprising:
    - a pump light source providing the pump light; and
      
      an enclosure enclosing the pump light source and the third fiber.
  - 11. An apparatus as in claim 2, further comprising:
    - a pump light source providing the pump light;
      
      an optical amplifier amplifying the optical signal after being output from the output end of the third fiber; and
      
      an enclosure enclosing the pump light source, the optical amplifier and the third fiber.
  - 12. An apparatus as in claim 2, wherein the Raman amplification occurring in the second fiber substantially equalizes transmission loss in the second fiber.
  - 13. An apparatus as in claim 4, wherein the first and second fibers are outside of the enclosure.
  - 14. An apparatus as in claim 4, wherein the Raman amplification occurring in the second fiber substantially equalizes transmission loss in the second fiber.
  - 15. An apparatus as in claim 5, wherein the Raman amplification occurring in the second fiber substantially equalizes transmission loss in the second fiber.
  - 16. An apparatus as in claim 5, wherein the first and second fibers are outside of the enclosure.
  - 17. An apparatus as in claim 10, wherein the first and second fibers are outside of the enclosure.
  - 18. An apparatus as in claim 10, wherein the Raman amplification occurring in the second fiber substantially equalizes transmission loss in the second fiber.
  - 19. An apparatus as in claim 11, wherein the Raman amplification occurring in the second fiber substantially equalizes transmission loss in the second fiber.
  - 20. An apparatus as in claim 11, wherein the first and second fibers are outside of the enclosure.
  - 21. An apparatus as in claim 13, wherein the Raman amplification occurring in the second fiber substantially equalizes transmission loss in the second fiber.
  - 22. An apparatus as in claim 16, wherein the Raman amplification occurring in the second fiber substantially equalizes transmission loss in the second fiber.
  - 23. An apparatus as in claim 17, wherein the Raman amplification occurring in the second fiber substantially equalizes transmission loss in the second fiber.
  - 24. An apparatus as in claim 20, wherein the Raman amplification occurring in the second fiber substantially equalizes transmission loss in the second fiber.

25. An apparatus comprising:
- an optical transmission line including first and second fibers so that an optical signal travels through the transmission line from the first fiber and then through the second fiber to be output from an output end of the second fiber, the first fiber having a positive dispersion for a wavelength of the optical signal, the second fiber being shorter than the first fiber and having a negative dispersion for the wavelength of the optical signal and a mode field diameter smaller than a mode field diameter of the first fiber, pump light being supplied to the second fiber from the output end so that the pump light travels through the second fiber and into the first fiber of the transmission line in an opposite direction than the optical signal and causes Raman amplification to occur in the second fiber which substantially equalizes transmission loss in the second fiber.
- View Dependent Claims (26, 27, 28)
- - 26. An apparatus as in claim 25, wherein the first fiber is directly connected to the second fiber.
  - 27. An apparatus as in claim 25, further comprising:
    - a pump light source providing the pump light;
      
      an optical amplifier amplifying the optical signal output from the output end of the second fiber; and
      
      an enclosure enclosing the pump light source and the optical amplifier.
  - 28. An apparatus as in claim 27, wherein the first and second fibers are outside of the enclosure.

29. An apparatus comprising:
- an optical transmission line including first, second and third fibers so that an optical signal travels through the transmission line from the first fiber, then through the second fiber and then through the third fiber to be output from an output end of the third fiber, whereinthe first fiber has a dispersion which is one of a positive dispersion and a negative dispersion for a wavelength of the optical signal,the second fiber has a dispersion which is the other of said one of a positive and negative dispersion for the wavelength of the optical signal,the second fiber has a mode field diameter smaller than a mode field diameter of the first fiber,the third fiber has a mode field diameter smaller than the mode field diameter of the second fiber,pump light is provided to the third fiber from the output end so that the pump light travels through the transmission line in an opposite direction than the optical signal and causes Raman amplification to occur in the transmission line.
- View Dependent Claims (30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52)
- - 30. An apparatus as in claim 29, wherein the third fiber has a dispersion which is said other of said one of a positive and negative dispersion for the wavelength of the optical signal.
  - 31. An apparatus as in claim 29, wherein the first fiber is directly connected to the second fiber, and the second fiber is directly connected to the third fiber.
  - 32. An apparatus as in claim 29, further comprising:
    - a pump light source providing the pump light; and
      
      an enclosure enclosing the pump light source and the third fiber.
  - 33. An apparatus as in claim 29, further comprising:
    - a pump light source providing the pump light;
      
      an optical amplifier amplifying the optical signal after being output from the output end of the third fiber; and
      
      an enclosure enclosing the pump light source, the optical amplifier and the third fiber.
  - 34. An apparatus as in claim 29, wherein the Raman amplification occurring in the second fiber substantially equalizes transmission loss in the second fiber.
  - 35. An apparatus as in claim 29, wherein the pump light travels through the third fiber, the second fiber and into the first fiber.
  - 36. An apparatus as in claim 29, wherein the third fiber is shorter than the second fiber, and the second fiber is shorter than the first fiber.
  - 37. An apparatus as in claim 30, wherein the first fiber is directly connected to the second fiber, and the second fiber is directly connected to the third fiber.
  - 38. An apparatus as in claim 30, further comprising:
    - a pump light source providing the pump light; and
      
      an enclosure enclosing the pump light source and the third fiber.
  - 39. An apparatus as in claim 30, further comprising:
    - a pump light source providing the pump light;
      
      an optical amplifier amplifying the optical signal after being output from the output end of the third fiber; and
      
      an enclosure enclosing the pump light source, the optical amplifier and the third fiber.
  - 40. An apparatus as in claim 30, wherein the Raman amplification occurring in the second fiber substantially equalizes transmission loss in the second fiber.
  - 41. An apparatus as in claim 32, wherein the first and second fibers are outside of the enclosure.
  - 42. An apparatus as in claim 32, wherein the Raman amplification occurring in the second fiber substantially equalizes transmission loss in the second fiber.
  - 43. An apparatus as in claim 33, wherein the Raman amplification occurring in the second fiber substantially equalizes transmission loss in the second fiber.
  - 44. An apparatus as in claim 33, wherein the first and second fibers are outside of the enclosure.
  - 45. An apparatus as in claim 38, wherein the first and second fibers are outside of the enclosure.
  - 46. An apparatus as in claim 38, wherein the Raman amplification occurring in the second fiber substantially equalizes transmission loss in the second fiber.
  - 47. An apparatus as in claim 39, wherein the first and second fibers are outside of the enclosure.
  - 48. An apparatus as in claim 39, wherein the Raman amplification occurring in the second fiber substantially equalizes transmission loss in the second fiber.
  - 49. An apparatus as in claim 41, wherein the Raman amplification occurring in the second fiber substantially equalizes transmission loss in the second fiber.
  - 50. An apparatus as in claim 44, wherein the Raman amplification occurring in the second fiber substantially equalizes transmission loss in the second fiber.
  - 51. An apparatus as in claim 45, wherein the Raman amplification occurring in the second fiber substantially equalizes transmission loss in the second fiber.
  - 52. An apparatus as in claim 47, wherein the Raman amplification occurring in the second fiber substantially equalizes transmission loss in the second fiber.

53. An apparatus comprising:
- a Raman amplification medium provided with pump light so that an optical signal is Raman amplified as the optical signal travels through the Raman amplification medium, the Raman amplification medium having characteristics so that dispersion slope of the Raman amplification medium is substantially zero and total wavelength dispersion over the entire length of the Raman amplification medium is not zero for a wavelength of the optical signal,wherein the Raman amplification medium comprises;
  
  a first fiber provided with pump light from a first pump light source to cause Raman amplification to occur in the first fiber, anda second fiber provided with pump light from a second pump light source different from the first pump light source, to cause Raman amplification to occur in the second fiber, the optical signal traveling through the first fiber and then through the second fiber to thereby travel through the Raman amplification medium.
- View Dependent Claims (54, 55, 56)
- - 54. An apparatus as in claim 53, wherein the first fiber has one of a positive dispersion and a negative dispersion for the wavelength of the optical signal, and the second fiber has the other of said one of a positive dispersion and a negative dispersion for the wavelength of the optical signal.
  - 55. An apparatus as in claim 53, wherein the first and second fibers both have a smaller mode field diameter than that of a transmission line through which the optical signal travels.
  - 56. An apparatus as in claim 54, wherein the first and second fibers both have a smaller mode field diameter than that of a transmission line through which the optical signal travels.

57. An apparatus comprising:
- a first optical amplifier comprising an optical fiber provided with pump light so that an optical signal traveling through the optical fiber is amplified by Raman amplification and then output from the first optical amplifier, the optical fiber having a positive dispersion per fiber length for a wavelength of the optical signal; and
  
  a second optical amplifier amplifying the optical signal output from the first optical amplifier, the second optical amplifier comprising an optical fiber provided with pump light so that the optical signal travels through the optical fiber of the second optical amplifier and is thereby amplified by Raman amplification, the optical fiber of the second optical amplifier having a negative dispersion per fiber length for the wavelength of the optical signal,wherein the optical fiber of the first optical amplifier and the optical fiber of the second optical amplifier, taken together, have characteristics so that dispersion slope of the optical fibers, taken together, is substantially zero and total wavelength dispersion over the entire length of the optical fibers, taken together, is not zero for a wavelength of the optical signal.

58. An apparatus comprising:
- a first optical amplifier comprising an optical fiber provided with pump light so that an optical signal traveling through the optical fiber is amplified by Raman amplification and then output from the first optical amplifier, the optical fiber having one of a positive dispersion per fiber length for a wavelength of the optical signal and a negative dispersion per fiber length for the wavelength of the optical signal; and
  
  a second optical amplifier amplifying the optical signal output from the first optical amplifier, the second optical amplifier comprising an optical fiber provided with pump light so that the optical signal travels through the optical fiber and is thereby amplified by Raman amplification, the optical fiber having the other of said one of a positive dispersion per fiber length for the wavelength of the optical signal and a negative dispersion per fiber length for the wavelength of the optical signal,wherein the optical fiber of the first optical amplifier and the optical fiber of the second optical amplifier, taken together, have characteristics so that dispersion slope of the optical fibers, taken together, is substantially zero and total wavelength dispersion over the entire length of the optical fibers, taken together, is not zero for a wavelength of the optical signal.

59. An apparatus comprising:
- an optical transmission line including first, second and third fibers so that an optical signal travels through the transmission line from the first fiber, then through the second fiber and then through the third fiber to be output from an output end of the third fiber, the first fiber having a positive dispersion for a wavelength of the optical signal, the second fiber having a negative dispersion for the wavelength of the optical signal and a mode field diameter smaller than a mode field diameter of the first fiber, the third fiber having a mode field diameter smaller than the mode field diameter of the second fiber, pump light being provided to the third fiber from the output end so that the pump light travels through the transmission line in an opposite direction than the optical signal and causes Raman amplification to occur in the transmission line, whereinthe third fiber is shorter than the second fiber, and the second fiber is shorter than the first fiber,the Raman amplification occurring in the second fiber substantially equalizes transmission loss in the second fiber, andRaman gain occurring in the third fiber is greater than Raman gain occurring in the second fiber.

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Current Assignee
Fujitsu Limited
Original Assignee
Fujitsu Limited
Inventors
Naito, Takao, Tanaka, Toshiki
Primary Examiner(s)
Hughes, Deandra M.

Application Number

US09/970,982
Publication Number

US 20020114061A1
Time in Patent Office

1,663 Days
Field of Search

359/334, 359/337, 359/337.4, 359/337.5, 372/3, 372/33
US Class Current

359/334
CPC Class Codes

H04B 10/2525   using dispersion-compensati...

H04B 10/2916   using Raman or Brillouin am...

H04B 10/298   Two-way repeaters, i.e. rep...

H04B 2210/003   Devices including multiple ...

Optical amplification and transmission system

First Claim

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Abstract

11 Citations

59 Claims

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Optical amplification and transmission system

First Claim

1 Assignment

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Abstract

11 Citations

59 Claims

Specification

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Solutions

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