Remote pumped dual core optical fiber system for use in subterranean wells

What is claimed is: 1. A downhole optical system, comprising: an optical fiber disposed in a subterranean well, the optical fiber comprising first and second cores; and an optical fiber amplifier disposed in the well and connected to the optical fiber, wherein the optical fiber amplifier amplifies optical power in the first core of the optical fiber, wherein the optical fiber amplifier is optically pumped with optical power transmitted into the well via the second core of the optical fiber, and wherein the optical power in the second core is provided to an optical modulator that modulates a signal from a sensor and optically transmits the modulated signal via the first core. 2. The downhole optical system of claim 1 , wherein the optical fiber amplifier comprises a rare earth doped core. 3. The downhole optical system of claim 1 , wherein the first core comprises a single mode core. 4. The downhole optical system of claim 1 , wherein the second core comprises a multiple mode core. 5. The downhole optical system of claim 1 , wherein the optical fiber amplifier is optically connected between sections of the optical fiber. 6. The downhole optical system of claim 1 , wherein the optical fiber amplifier comprises first and second cores optically connected respectively to the optical fiber first and second cores. 7. The downhole optical system of claim 1 , wherein the first core is optically connected to at least one sensor in the well. 8. The downhole optical system of claim 1 , wherein the first core comprises a sensor in the well. 9. The downhole optical system of claim 1 , wherein the optical fiber amplifier comprises a reflector which reflects the optical power in the second core through the optical fiber amplifier. 10. The downhole optical system of claim 1 , wherein the first core comprises a single mode core, the second core comprises a multiple mode core, and wherein the first core is surrounded by the second core. 11. A downhole optical system, comprising: an optical fiber disposed in a subterranean well, the optical fiber comprising first and second cores; and an optical fiber amplifier disposed in the well and connected to the optical fiber, the optical fiber amplifier comprising first and second cores optically coupled respectively to the optical fiber first and second cores, wherein optical power is transmitted into the well via the optical fiber second core to the second core of the optical fiber amplifier, and wherein the optical power in the optical fiber second core is provided to an optical modulator that modulates a signal from a sensor and optically transmits the modulated signal via the optical fiber first core. 12. The downhole optical system of claim 11 , wherein the optical fiber amplifier first core is rare earth doped. 13. The downhole optical system of claim 11 , wherein the optical fiber first core comprises a single mode core. 14. The downhole optical system of claim 11 , wherein the optical fiber second core comprises a multiple mode core. 15. The downhole optical system of claim 11 , wherein the optical fiber amplifier is optically connected between sections of the optical fiber. 16. The downhole optical system of claim 11 , wherein the optical fiber first core is optically connected to at least one sensor in the well. 17. The downhole optical system of claim 11 , wherein the optical fiber first core comprises a sensor in the well. 18. The downhole optical system of claim 11 , wherein the optical fiber amplifier comprises a reflector which reflects optical power through the optical fiber amplifier second core. 19. The downhole optical system of claim 11 , wherein the optical fiber amplifier amplifies optical power in the optical fiber first core, the optical fiber amplifier being optically pumped with the optical power transmitted via the optical fiber second core. 20. The downhole optical system of claim 11 , wherein the optical fiber first core comprises a single mode core, the optical fiber second core comprises a multiple mode core, and wherein the single mode core is surrounded by the multiple mode core. 21. A downhole optical system, comprising: an optical fiber disposed in a subterranean well; and an optical fiber amplifier disposed in the well and connected to the optical fiber, wherein the optical fiber amplifier amplifies optical power in a single mode core of the optical fiber, wherein the optical fiber amplifier is optically pumped with optical power transmitted into the well via a multiple mode core of the optical fiber, wherein the single mode core is surrounded by the multiple mode core, and wherein the optical power in the multiple mode core is provided to an optical modulator that modulates a signal from a sensor and optically transmits the modulated signal via the single mode core. 22. The downhole optical system of claim 21 , wherein the optical fiber amplifier comprises a rare earth doped core. 23. The downhole optical system of claim 21 , wherein the optical fiber amplifier is optically connected between sections of the optical fiber. 24. The downhole optical system of claim 21 , wherein the optical fiber amplifier comprises first and second cores optically connected respectively to the optical fiber single mode and multiple mode cores. 25. The downhole optical system of claim 21 , wherein the single mode core is optically connected to at least one sensor in the well. 26. The downhole optical system of claim 21 , wherein the single mode core comprises a sensor in the well. 27. The downhole optical system of claim 21 , wherein the optical fiber amplifier comprises a reflector which reflects the optical power in the multiple mode core through the optical fiber amplifier.