Claims
- 1. A method of amplifying an optical signal comprising the steps of:
transmitting the optical signal through a section of optical fiber; pumping the optical fiber with a pump signal having a wavelength band and power level sufficient to produce Raman gain within a predetermined band of wavelengths including at least one signal wavelength of the optical signal; modulating the pump signal in dependence on a desired average pump signal power.
- 2. A method according to claim 1, wherein the desired average pump signal power is selected to provide constant gain in response to changing signal power of the optical signal.
- 3. A method according to claim 1, wherein the desired average pump signal power is less than a pump signal power achievable without modulating the pump signal.
- 4. A method according to claim 1, wherein the step of pumping the optical fiber includes coupling the pump signal into the optical fiber so that it propagates in at least one of a counter-propagating and a co-propagating direction with respect to the optical signal.
- 5. A method according to claim 1, wherein the step of pumping the optical fiber includes driving a grating stabilized laser diode with a current sufficient to maintain coherence collapse of the laser.
- 6. A method according to claim 5, wherein the step of modulating the pump signal includes pulsing the current at a fixed frequency so as to obtain a desired average current.
- 7. A method according to claim 6, wherein the fixed frequency is selected so as to minimize a transfer of modulation from the pump signal to the optical signal.
- 8. A method according to claim 6, wherein the fixed frequency is greater than 500 kHz.
- 9. A method according to claim 6, wherein the fixed frequency is less than 20 MHz.
- 10. A method according to claim 6, wherein a pulse width of the pulsed current is selected in dependence upon a desired average current.
- 11. A method according to claim 6, wherein the pulsed current varies between the current sufficient to maintain coherence collapse of the laser and substantially no current.
- 12. A method according to claim 1, wherein the step of modulating the pump signal comprises pulse width modulation to produce the desired average pump signal power.
- 13. A method of pumping an optical amplifier having a section of optical fiber for receiving and amplifying an optical signal, the method comprising the steps of:
providing a grating stabilized pump laser for providing a pump signal to the optical fiber, the pump signal having a wavelength band and power level sufficient to produce Raman gain on the optical signal; determining a drive current Imax of the pump laser for maximum pump power output; determining a drive current Imin of the pump laser for minimum stable pump power output; applying a pulsed drive current to the pump laser at least at Imin for providing a time averaged pump drive current Iave less than Imin while still maintaining stable pump power output; and modifying the pulsed drive current in dependence upon a desired pump power level.
- 14. A method according to claim 13, wherein the step of modifying the pulsed drive current includes changing a pulse width of the pulsed drive current to effect a substantially linear decrease in time averaged pump drive current.
- 15. A Raman optical amplifier comprising:
a section of optical fiber for transmitting an optical signal; a pump laser optically coupled to the length of optical fiber, the pump laser for providing a pump signal having a wavelength band and power level sufficient to produce Raman gain within a predetermined band of wavelengths including at least one signal wavelength of the optical signal; and, modulating means coupled to the pump laser, the modulating means for modulating the pump signal in dependence on a desired average pump signal power.
- 16. An amplifier as defined in claim 15, wherein the Raman amplifier comprises a distributed Raman amplifier.
- 17. An amplifier as defined in claim 15, wherein the Raman amplifier comprises a discrete Raman amplifier.
- 18. An amplifier as defined in claim 15, wherein the pump laser is coupled to the optical fiber with a WDM coupler.
- 19. An amplifier as defined in claim 15, wherein the pump laser is coupled to the optical fiber so as to provide a pump signal counter-propagating with the optical signal.
- 20. An amplifier as defined in claim 15, wherein the pump laser is coupled to the optical fiber so as to provide a pump signal co-propagating with the optical signal.
- 21. An amplifier as defined in claim 15, wherein the pump laser comprises a grating stabilized semiconductor laser diode.
- 22. An amplifier as defined in claim 21, wherein the modulating means comprises a power supply coupled to the pump laser, the power supply for providing selectably variable current to the pump laser between a current level of Imax and Imin, where Imin corresponds to minimum stable operating current of the pump laser.
- 23. An amplifier as defined in claim 22, wherein the power supply is designed for providing pulsed current at a fixed frequency.
- 24. An amplifier as defined in claim 23, further comprising a controller for varying the pulse duty cycle in order to provide selectable average current below Imin.
- 25. An amplifier as defined in claim 15, wherein the modulating means comprises a power supply for driving the pump laser such that the pump signal is pulsed at a fixed frequency.
- 26. An amplifier as defined in claim 25, comprising a controller for varying the pulse width so as to increase the dynamic range of the pump laser.
- 27. An amplifier as defined in claim 15, further comprising at least one other pump laser coupled to the optical fiber.
- 28. An amplifier as defined in claim 27, wherein the modulating means is designed such that each of the pump laser and the at least one other pump laser is modulated with its phase offset with respect to the other.
- 29. A Raman pump for pumping a section of optical fiber for transmitting an optical signal, comprising:
a pump laser optically coupled to the section of optical fiber, the pump laser for providing a pulsed pump signal having a wavelength band and an average power level sufficient to produce Raman gain for the optical signal; and, a controller coupled to the pump laser, the controller for selecting a pulse width of the pulsed pump signal so as to increase the dynamic range of the pump laser.
- 30. A Raman optical amplifier comprising:
a pump laser for optically coupling to a length of optical fiber, the pump laser for operating in a first continuous-wave mode of operation wherein it produces a continuous wave pump signal having a power level between Pmax and Pmin, and a second modulated mode of operation wherein it produces a modulated pump signal having an average power level below Pmin, wherein Pmin corresponds to the minimum pump power achievable under stable continuous wave operating conditions; and a controller coupled to the pump laser, the controller for switching between the first and second modes of operation in dependence upon a desired pump power.
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application claims priority from U.S. provisional application No. 60/392,298 filed Jul. 1, 2002.
Provisional Applications (1)
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Number |
Date |
Country |
|
60392298 |
Jul 2002 |
US |