Title :
Phase and Amplitude Stability of EHF-Band Radar Carriers Generated From an Active Mode-Locked Laser
Author :
Serafino, Giovanni ; Ghelfi, Paolo ; Pérez-Millán, Pere ; Villanueva, Guillermo E. ; Palací, Jesus ; Cruz, José L. ; Bogoni, Antonella
Author_Institution :
TeCIP, Scuola Superiore Sant´´Anna, Pisa, Italy
Abstract :
We study the phase and amplitude stability of RF signals, generated at different frequencies by heterodyning pairs of modes from the optical spectrum of an active mode-locked laser, and we focus on the dependence of noise on the RF frequency. A specific theoretical model is derived, and the amplitude and timing jitter behaviour of the RF signals are analyzed and experimentally validated. The timing jitter reveals to be constant at any RF generated frequency, making the considered RF generation method suitable for the realization of flexible and highly stable micro- and millimeter-wave coherent radar transceivers. The performance of the considered RF generation architecture are compared with a state-of-the-art RF synthesizer, proving that the optically generated RF signals meet the high stability requirements of the new generation of coherent radar systems, even at extremely high frequencies (EHF).
Keywords :
frequency synthesizers; laser mode locking; laser noise; microwave photonics; phase noise; radar receivers; stability; timing jitter; transceivers; EHF-band radar carrier; RF generated frequency; RF generation method; RF signal analysis; RF synthesizer; active mode-locked laser; amplitude stability; coherent radar system; micrometer-wave coherent radar transceiver; millimeter-wave coherent radar transceiver; optical spectrum; phase stability; timing jitter behaviour; Laser modes; Laser noise; Laser radar; Optical filters; Phase noise; RF signals; Bragg gratings; RF signals; laser mode locking; laser noise; microwave photonics; phase noise; radar;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2011.2170811
