Optical pumping and powering in spatially multiplexed transmission links

What is claimed is: 1. An apparatus comprising an optical signal-distribution module configured to end-connect to first and second multi-core optical fibers such that each optical core of the first multi-core optical fiber is end-connected to a corresponding optical core of the second multi-core optical fiber, wherein the optical signal-distribution module is configured to: transfer a portion of optical power of a first optical core of the first multi-core optical fiber to each of two or more optical cores of the second multi-core optical fiber; and transfer optical power of each of the one or more second optical cores of the first multi-core optical fiber to a corresponding one of the two or more optical cores of the second multi-core optical fiber. 2. The apparatus of claim 1 , wherein the optical signal-distribution module includes a first optical interface configured to end couple individual optical cores therein to corresponding ones of the optical cores of the first multi-core optical fiber and includes a second optical interface configured to end couple individual optical cores therein to corresponding ones of the optical cores of the second multi-core optical fiber. 3. The apparatus of claim 1 , further comprising the first multi-core optical fiber and the second multi-core optical fiber. 4. The apparatus of claim 3 , wherein: the second multi-core optical fiber includes rare-earth doped optical amplification media along segments of some of the optical cores therein; and the optical signal-distribution module is configured to direct the portion of the optical power to the segments of the some of the optical cores. 5. The apparatus of claim 1 , wherein the optical signal-distribution module is configured to transfer the portion of the optical power such that substantially no optical power of said one or more second optical cores is transferred from said one or more second optical cores to said first optical core. 6. The apparatus of claim 1 , further comprising one or more optical amplifiers end-connected to said one or more second optical cores, wherein: the optical signal-distribution module is configured to direct the portion of the optical power to said one or more optical amplifiers; and said one or more optical amplifiers are configured to optically amplify optical signals received from said one or more second optical cores using the portion of the optical power as a power source. 7. The apparatus of claim 1 , further comprising: an optical pump source configured to apply the optical power to said first optical core; and a plurality of optical transmitters configured to apply respective optical data-bearing signals to said one or more second optical cores. 8. The apparatus of claim 7 , further comprising a plurality of optical receivers configured to receive said respective optical data-bearing signals via said two or more optical cores of the second multi-core optical fiber. 9. The apparatus of claim 1 , further comprising: an optical-to-electrical (O/E) converter; an electronic device; and a first optical tap coupled to the first optical core and configured to direct a second portion of the optical power to the O/E converter, wherein the O/E converter is configured to convert said second portion of the optical power into electricity for powering the electronic device. 10. The apparatus of claim 9 , further comprising one or more additional optical taps, each coupled to a respective one of said one or more second optical cores and configured to direct a respective portion of optical power of a respective optical signal from the respective one of said one or more second optical cores to the electronic device. 11. The apparatus of claim 10 , wherein the electronic device is an optical performance monitor configured to: process said respective portions to assess a communication channel established over the first and second multi-core optical fibers; and communicate assessment results to a channel controller. 12. The apparatus of claim 1 , wherein the optical signal-distribution module comprises: a first input port connected to the first optical core of the first multi-core optical fiber and a first output port connected to a first of the two or more optical cores of the second multi-core optical fiber; a second input port connected to one of the one or more second optical cores of the first multi-core optical fiber and a second output port connected to a second of the two or more optical cores of the second multi-core optical fiber; an optical-beam splitter configured to receive a first optical signal from the first input port; and an optical-beam combiner configured to receive a second optical signal from the second input port, wherein: the optical-beam splitter is further configured to: split the first optical signal into a first split signal and a second split signal; direct the first split signal to the optical-beam combiner; and direct the second split signal to the first output port; and the optical-beam combiner is further configured to: combine the first split signal and the second optical signal to produce a combined signal; and direct the combined signal to the second output port. 13. The apparatus of claim 12 , wherein the optical-beam combiner comprises a dichroic mirror. 14. The apparatus of claim 1 , wherein the optical signal-distribution module comprises: a first input port connected to the first optical core of the first multi-core optical fiber and a first output port connected to a first of the two or more optical cores of the second multi-core optical fiber; a second input port connected to one of the second optical cores of the first multi-core optical fiber and a second output port connected to a second of the two or more optical cores of the second multi-core optical fiber; a first waveguide coupled between the first input port and the first output port; a second waveguide coupled between the second input port and the second output port; and an evanescent or interference-based waveguide coupler configured to couple optical power from the first waveguide into the second waveguide. 15. The apparatus of claim 1 , wherein the optical signal-distribution module comprises: a first input port connected to the first optical core of the first multi-core optical fiber and a first output port connected to a first of the two or more optical cores of the second multi-core optical fiber; a second input port connected to one of the second optical cores of the first multi-core optical fiber and a second output port connected to a second of the two or more optical cores of the second multi-core optical fiber; a first waveguide coupled between the first input port and the first output port; a second waveguide coupled between the second input port and the second output port, wherein: the first waveguide comprises a first distributed Bragg reflector; the second waveguide comprises a second distributed Bragg reflector; the first distributed Bragg reflector is configured to: split a first optical signal received from the first input port into a first split signal and a second split signal; direct the first split signal to the second distributed Bragg reflector; and direct the second split signal to the first output port; and the second distributed Bragg reflector is configured to: combine the first split signal and a second optical signal received from the second input port to produce a combined signal; and direct the combined signal to the second output port. 16. The apparatus of claim 1 , wherein the optical signal-