Telemetry system using frequency combs

What is claimed is: 1. A method, comprising: receiving a first coherent light from a transmitter positioned at a surface of a subterranean formation, wherein the first coherent light is received downhole; splitting the first coherent light into a plurality of wavelengths; encoding downhole information associated with one or more downhole tools onto at least one of the plurality of wavelengths; combining the plurality of wavelengths into a second coherent light at the one or more downhole tools; transmitting the second coherent light to a receiver positioned at the surface; and one or more of: receiving at a first receiver coupled to a first interface and a second receiver coupled to a second interface downlink data encoded on a fiber optic line, wherein a coupler is coupled between 1) the first interface and the fiber optic line and 2) the second interface and the fiber optic line, wherein the first interface comprises a first demultiplexer and a first multiplexer, and wherein the second interface comprises a second demultiplexer and a second multiplexer; and receiving at a third receiver coupled to a splitter the downlink data encoded on the fiber optic line, wherein a circulator is coupled between 1) the splitter and the fiber optic line, and 2) a combiner and the second fiber optic line, wherein the splitter comprises a demultiplexer, and where the combiner comprises a multiplexer. 2. The method of claim 1 , further comprising: adjusting one or more operational parameters associated with at least one of the one or more downhole tools based, at least in part, on the received downlink data. 3. The method of claim 1 , wherein splitting the first coherent light into the plurality of wavelengths comprises splitting the first coherent light into the plurality of wavelengths using a wavelength demultiplexer positioned within the one or more downhole tools. 4. The method of claim 1 , wherein encoding the downhole information onto at least one of the plurality of wavelengths comprises encoding data from at least one sensor of the one or more downhole tools onto at least one of the plurality of wavelengths. 5. The method of claim 1 , wherein encoding the downhole information onto at least one of the plurality of wavelengths comprises modulating at least one of a frequency, phase, wavelength, pulse width, polarization, time delay, and amplitude. 6. The method of claim 1 , wherein receiving the first coherent light comprises receiving the first coherent light through an optical pathway between the transmitter and the one or more downhole tools. 7. The method of claim 6 , wherein receiving the second coherent light at the receiver comprises receiving the second coherent light through the optical pathway. 8. The method of claim 6 , wherein receiving the second coherent light at the receiver comprises receiving the second coherent light through a second optical pathway. 9. The method of claim 1 , wherein transmitting the first coherent light from the transmitter positioned at the surface of the subterranean formation comprises: receiving from a frequency comb transmitter light comprising a plurality of wavelengths; receiving encoded surface information onto at least one of the plurality of wavelengths; and combining the plurality of wavelengths into the first coherent light. 10. A telemetry system for one or more downhole operations, comprising: one or more downhole tools communicatively coupled to an information handling system, wherein the one or more downhole tools are deployed downhole; a splitter coupled to a fiber optic line, wherein the splitter splits a first coherent light via the fiber optic line from a surface transmitter into a plurality of wavelengths; one or more modulators coupled to the splitter, wherein the one or more modulators receive one of the plurality of wavelengths, and wherein each of the one or more downhole tools is associated with one of the one or more modulators; one or more downhole data associated with the one or more downhole tools, wherein the associated one of the one or more modulators encodes the one or more downhole data onto the associated received one of the plurality of wavelengths to form one or more encoded wavelengths; a combiner coupled to each of the one or more modulators, wherein the combiner combines the one or more encoded wavelengths, and wherein the combiner transmits the combined one or more encoded wavelengths to an information handling system via the fiber optic line; and one or more of: a coupler coupled between a first interface and a fiber optic line and a second interface and the fiber optic line, wherein the first interface comprises a first demultiplexer and a first multiplexer, and wherein the second interface comprises a second demultiplexer and a second multiplexer, and a plurality of receivers coupled to the first demultiplexer and the second demultiplexer, wherein the plurality of receivers receive downlink data encoded on the fiber optic line, wherein the one or more modulators couple to one or more of the first interface and the second interface so as to couple the one or more modulators to the splitter; and a circulator coupled between the splitter and the fiber optic line and coupled between the combiner and the second fiber optic line, wherein the splitter comprises a third demultiplexer, and wherein the combiner comprises a third multiplexer, and a receiver coupled to the splitter, wherein the receiver receives downlink data encoded on the first fiber optic line, and wherein the one or more modulators couple to the splitter via the circulator. 11. The telemetry system of claim 10 , wherein the first coherent light is received from a frequency comb. 12. The telemetry system of claim 11 , wherein the first coherent light is encoded with downlink data. 13. The telemetry system of claim 10 , further comprising a tool head coupled to the one or more downhole tools, wherein the tool head comprises the one or more modulators. 14. The telemetry system of claim 10 , further comprising a tool head coupled to the one or more downhole tools, wherein the tool head comprises the combiner and the splitter, and wherein the one or more downhole tools comprise the one or more modulators. 15. The telemetry system of claim 10 , wherein the combiner comprises a plurality of combiners, wherein the splitter comprises a plurality of splitters, and wherein each of the one or more downhole tools comprise at least one of the one or more modulators, at least one of the plurality of combiners, and at least one of the plurality of the splitters. 16. The telemetry system of claim 10 , wherein the splitter is a demultiplexer. 17. The telemetry system of claim 10 , wherein the combiner is a multiplexer. 18. The telemetry system of claim 10 , wherein the first fiber optic line and the second fiber optic line are a single fiber optic line. 19. The telemetry system of claim 10 wherein the fiber optic line comprises a first fiber optic line and a second fiber optic line, wherein the splitter is coupled to the first fiber optic line, and wherein the combiner is coupled to the second fiber optic line. 20. The telemetry system of claim 10 , further comprising one of: wherein the one or more modulators are disposed in a tool head, and wherein one or more downhole tools communicate data to a respective one or more modulators; wherein the one or more modulators are disposed in one or more downhole tools, wherein the one or more downhole tools communicate data to a tool head mul