Title :
RF-Over-Fiber Links With Very Low Noise Figure
Author :
Ackerman, Edward I. ; Burns, William K. ; Betts, Gary E. ; Chen, Jianxiao X. ; Prince, Joelle L. ; Regan, Michael D. ; Roussell, Harold V. ; Cox, Charles H., III
Author_Institution :
Photonic Syst., Inc., Billerica, MA
Abstract :
Previously published analytical models for the noise figure of an amplifierless fiber-optic link fail to predict the measured performance, with a discrepancy of 1.1 dB at 1 GHz that increases to 2.3 dB by 12 GHz. We use an equivalent circuit to derive the effect of an additional source of noise not accounted for in earlier models: thermal noise arising from loss in the modulator´s traveling-wave electrodes. The electrode thermal noise has a frequency dependence matching that of the link´s noise figure, such that predictions using the improved model match the measured 1-12 GHz performance of a link with record low noise figure to within ~ 0.4 dB across this band.
Keywords :
optical links; optical modulation; optical noise; radio-over-fibre; thermal noise; amplifierless fiber-optic link; electrode thermal noise; equivalent circuit; frequency 1 GHz; frequency 12 GHz; modulator traveling-wave electrodes; noise figure; Circuit noise; Electrodes; Equivalent circuits; Frequency dependence; Impedance; Noise figure; Noise measurement; Optical fiber amplifiers; Optical fibers; Predictive models; Analytical models; microwave photonics; noise figure; optical fiber links;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2008.927610
