Claims
- 1. An optical amplifier comprising:
a pump laser module having a first pump wavelength at room temperature and a second pump wavelength at a highest operating temperature of the optical amplifier, the pump laser module being configured to optically couple the pump output to an optical amplifier fiber having an upper wavelength atomic absorption band edge, the second pump wavelength being less than the upper wavelength atomic absorption band edge.
- 2. The optical amplifier of claim 1 wherein the first pump wavelength is less than 965 nm.
- 3. The optical amplifier of claim 1 wherein the highest operating temperature is 70 ° C.
- 4. The optical amplifier of claim 1 wherein the upper wavelength absorption band edge is less than or equal to 980 nm.
- 5. The optical amplifier of claim 1 wherein the laser pump module has a room temperature output wavelength less than about 962.5 nm.
- 6. The optical amplifier of claim 1 wherein the laser pump module has a room temperature output wavelength of between about 951-961 nm.
- 7. The optical amplifier of claim 6 wherein the upper wavelength absorption band edge is at least 976 nm.
- 8. The optical amplifier of claim 1 wherein the optical amplifier fiber is co-doped with Er and with Yb.
- 9. The optical amplifier of claim 8 wherein the optical amplifier fiber comprises at least about 0.05 weight % Er2O3.
- 10. The optical amplifier of claim 1 wherein the optical amplifier fiber comprises at least about 0.05 weight % Er2O3 and at least 0.5 weight % Yb2O3.
- 11. An optical amplifier comprising:
a pump laser module providing a pump output at a first output wavelength of less than 965 nm at 20° C., and a second output wavelength at a temperature of 70° C., the pump laser module being configured to optically couple the pump output to an optical amplifier fiber having an upper wavelength atomic absorption band edge between about 970-980 nm, wherein the second output wavelength is less than the upper wavelength atomic absorption band edge.
- 12. The optical amplifier of claim 11 wherein the upper wavelength atomic absorption band edge is at least 975 nm.
- 13. The optical amplifier of claim 11 wherein the first output wavelength is greater than about 951.
- 14. An optical amplifier comprising:
a pump laser module providing pump output at
a first output wavelength between about 951-961 nm at a first case temperature of 20° C., and at a second output wavelength at a second case temperature of 70° C., the pump laser module being configured to optically couple the pump output to an optical amplifier fiber having an upper wavelength absorption band edge, wherein the second output wavelength is less than the upper wavelength absorption band edge of the optical amplifier fiber.
- 15. An optical amplifier fiber comprising:
SiO2; Yb2O3; Er2O3; Al2O3; and P2O5, the optical amplifier fiber having an absorption peak between about 970-980 nm and a normalized absorption of at least 20% of the absorption peak from at least about 940 to about 970 nm.
- 16. The optical amplifier fiber of claim 15 having the normalized absorption of at least 20% from about 905 nm to about 970 nm.
- 17. A silica-based optical amplifier fiber comprising:
at least 1.5 weight % Yb2O3; at least 0.05 weight % Er2O3; at least 4.5 weight % Al2O3; and at least 4.5 weight % P2O5.
- 18. The silica-based optical amplifier fiber of claim 17 comprising 0.1-0.5 weight % Er2O3.
- 19. A silica-based optical amplifier fiber comprising:
at least 0.5 weight % Yb2O3; between 0.05-0.5 weight % Er2O3; greater than 0.1 weight % Al2O3; and sixteen weight % P2O5.
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This applications claims priority of U.S. Provisional Patent Application No. 60/352,747 filed on Jan. 30, 2003, entitled “Coolerless Pump Wavelength Optimization for Er/Yb Doped Optical Fiber Amplifiers” which is incorporated herein by reference for all purposes.
Provisional Applications (1)
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Number |
Date |
Country |
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60352747 |
Jan 2002 |
US |