Compact optical fiber amplifier

What is claimed is: 1. An optical fiber amplifier comprising: an optics module responsive to an incoming optical signal for providing as an output an amplified version thereof; and a fiber module optically coupled to the optics module for receiving the incoming optical signal therefrom, the fiber module housing a section of amplifying fiber for creating gain in the incoming optical signal in the presence of pump light and coupling an amplified version of the incoming optical signal into the optics module, the fiber module including a flexible substrate for supporting the section of amplifying fiber in a configuration of flat coils; and a support structure formed of a stiff material and disposed underneath the flexible substrate, the support structure including an end termination for mechanically attaching the fiber module to the optics module. 2. The optical fiber amplifier as defined in claim 1 wherein the fiber module further comprises a coating layer of a pressure-sensitive adhesive disposed over the flexible substrate for affixing the section of amplifying fiber to the flexible substrate. 3. The optical fiber amplifier as defined in claim 1 wherein the support structure includes a central opening having a diameter defined by a minimum acceptable fiber bend radius, the minimal acceptable fiber bend radius dictated by the type of fiber utilized as the amplifying fiber. 4. The optical fiber amplifier as defined in claim 1 wherein the support structure further comprises a stiffening element disposed to cover the end termination. 5. The optical fiber amplifier as defined in claim 1 wherein the end termination of the support structure comprises a pair of separate end terminations. 6. The optical fiber amplifier as defined in claim 5 wherein the support structure further comprises a stiffening element disposed over each end termination. 7. The optical fiber amplifier as defined in claim 1 wherein the flexible substrate is formed of an insulative material. 8. The optical fiber amplifier as defined in claim 7 wherein the flexible substrate is formed of a polyimide. 9. The optical fiber amplifier as defined in claim 1 wherein the optical fiber amplifier is a doped fiber amplifier and the section of amplifying fiber comprises a length of rare-earth doped optical fiber. 10. The optical fiber amplifier as defined in claim 9 wherein the section of amplifying fiber comprises a length of erbium-doped fiber. 11. The optical fiber amplifier as defined in claim 1 wherein the optical fiber amplifier is a distributed Raman amplifier and the section of amplifying fiber comprises a length of transmission fiber. 12. The optical fiber amplifier as defined in claim 11 wherein the section of amplifying fiber comprises a length of single mode fiber.