Title :
Performance predictions and topology improvements for optical serrodyne comb generators
Author_Institution :
Dept. of Electr. & Comput. Syst. Eng., Monash Univ., Clayton, Vic., Australia
Abstract :
Detailed simulations identify which optical components affect the performance of a radio frequency (RF) and optical comb generator based on an optical loop with a phase modulator. The simulations suggest that the topology of the loop can be modified to give a flatter RF spectrum and a greater resilience to fluctuations in the optical phase length of the loop. Furthermore, a method of filtering the laser´s output to reduce the noise floor of the RF comb is proposed and verified. The simulations show that the linewidth of the source is critical to good performance, as are the quality of the sawtooth and the short-term phase stability of the loop. However, the amplified spontaneous emission noise (ASE) from the optical amplifier within the loop is relatively unimportant.
Keywords :
fluctuations; laser noise; microwave photonics; optical communication equipment; optical filters; optical modulation; phase modulation; radiofrequency spectra; signal generators; superradiance; RF spectrum; amplified spontaneous emission noise; comb generators; fluctuations; laser output filtering; loop topology; noise reduction; optical loop; optical phase length; optical serrodyne generators; phase modulator; phase stability; radiofrequency comb generators; sawtooth quality; signal generators; Fluctuations; Optical devices; Optical filters; Optical modulation; Optical noise; Phase modulation; Radio frequency; Radiofrequency identification; Resilience; Topology; Microwave generation; optical delay lines; oscillator noise; semiconductor lasers; signal generators;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2005.850810
