Title :
Optical phase noise modeling for heterodyne radio over fiber systems
Author :
Kassa, W.-E. ; Faci, S. ; Billabert, A.-L. ; Algani, C.
Author_Institution :
CNAM - ESYCOM, Conservatoire Nat. des Arts et Metiers, Paris, France
Abstract :
In this paper, the optical phase noise of the semiconductor laser is integrated with its electrical equivalent circuit (large signal model) to perform a system modeling approach. The model is employed in a heterodyne radio over fiber (RoF) system where two distributed feedback (DFB) lasers are used to generate a millimeter-wave (mm-wave) signal. An optical phase-locked loop (OPLL) is also introduced to reduce the phase noise on the generated mm-wave signal. With the developed model, phase noise contribution of individual lasers is evaluated even with more complex systems like OPLL in purely microwave simulator.
Keywords :
distributed feedback lasers; equivalent circuits; laser noise; millimetre wave generation; optical phase locked loops; phase noise; radio-over-fibre; semiconductor lasers; DFB; OPLL; distributed feedback laser; electrical equivalent circuit; heterodyne RoF system; heterodyne radio over fiber system; microwave simulator; millimeter-wave signal generation; mm-wave signal generation; optical phase locked loop; optical phase noise reduction; semiconductor laser; Integrated circuit modeling; Laser noise; Masers; Optical mixing; Optical noise; Phase noise; Radio over Fiber; optical phase locked loop; optical phase noise; semiconductor lasers;
Conference_Titel :
Microwave Conference (EuMC), 2014 44th European
Conference_Location :
Rome
DOI :
10.1109/EuMC.2014.6986656
