Monitoring power combiners

What is claimed is: 1. A thermal monitoring system, comprising; input fibers for receiving optical signals; a glass taper where the input fibers converge and are fused together; an output fiber optically coupled to the glass taper, the output fiber comprising an output strip edge, the output fiber further comprising a mode stripper, the mode stripper comprising a mode-stripper input and a mode-stripper output; input-splice sensors, each input-splice sensor being operatively coupled to a corresponding input fiber, each input-splice sensor to monitor thermal conditions associated with its corresponding input fiber; a taper thermal sensor operatively coupled to the glass taper, the taper thermal sensor to monitor thermal conditions associated with the glass taper; an output-strip-edge thermal sensor operatively coupled to the output strip edge, the output-strip-edge thermal sensor to monitor thermal conditions associated with the output strip edge; a mode-stripper-input sensor operatively coupled to the mode-stripper input, the mode-stripper-input sensor to monitor thermal conditions associated with the mode-stripper input; and a mode-stripper-output sensor operatively coupled to the mode-stripper output, the mode-stripper-output sensor to monitor thermal conditions associated with the mode-stripper output. 2. A system, comprising: a fused fiber combiner, comprising: input fibers to receive optical signals; and a glass taper where the input fibers converge and are fused together; and sensors to monitor thermal conditions associated with the fused fiber combiner, the sensors comprising: input-splice sensors, each input-splice sensor being operatively coupled to a corresponding input fiber, each input-splice sensor to monitor thermal conditions associated with its corresponding input fiber; and a taper thermal sensor operatively coupled to the glass taper, the taper thermal sensor to monitor thermal conditions associated with the glass taper. 3. The system of claim 2 , further comprising an output fiber optically coupled to the glass taper, the output fiber comprising an output-strip edge, the output fiber further comprising a mode stripper, the mode stripper comprising a mode-stripper input and a mode-stripper output. 4. The system of claim 3 , the sensors comprising: an output-strip-edge thermal sensor operatively coupled to the output strip edge, the output-strip-edge thermal sensor to monitor thermal conditions associated with the output strip edge. 5. The system of claim 2 , the sensors comprising: a mode-stripper-input sensor operatively coupled to an input of the mode stripper, the mode-stripper-input sensor to monitor thermal conditions associated with the input of the mode stripper; and a mode-stripper-output sensor operatively coupled to an output of the mode stripper, the mode-stripper-output sensor to monitor thermal conditions associated with the output of the mode stripper. 6. The system of claim 2 , the sensors comprising: means for monitoring thermal conditions associated with an output of the mode stripper. 7. The system of claim 2 , further comprising: a non-transient computer-readable medium operatively coupled to the sensors, the non-transient computer-readable medium comprising: logic to determine proper manufacturing of the fused fiber combiner based on the monitored thermal conditions; logic to determine proper installation of the fused fiber combiner based on the monitored thermal conditions; logic to determine proper operation of the fused fiber combiner based on the monitored thermal conditions; and logic to conduct failure analysis of the fused fiber combiner based on the monitored thermal conditions.