Title :
All-Fiber Ultrawideband Pulse Generation Based on Spectral Shaping and Dispersion-Induced Frequency-to-Time Conversion
Author :
Wang, Chao ; Zeng, Fei ; Yao, Jianping
Author_Institution :
Sch. of Inf. Technol. & Eng., Univ. of Ottawa, Ont.
Abstract :
An approach to generating and distributing ultrawideband (UWB) pulses based on optical spectral shaping and frequency-to-time conversion using all-fiber components is proposed and demonstrated. In the system, the spectrum of an ultrashort pulse from a mode-locked fiber laser is spectrally shaped by an all-fiber spectrum shaper, to produce a monocycle- or a doublet-shaped power spectrum. Thanks to the frequency-to-time conversion in a dispersive fiber, time-domain optical pulses exhibiting the user-defined shape of the optical power spectrum are obtained. Experiments based on the proposed approach are carried out. UWB monocycle or doublet pulses are generated
Keywords :
fibre lasers; laser mode locking; optical fibre dispersion; optical pulse generation; spectral line breadth; all-fiber components; all-fiber pulse generation; dispersion-induced conversion; dispersive fiber; femtosecond pulse; fiber laser; frequency-to-time conversion; mode-locked laser; optical power spectrum; spectral shaping; spectrum shaper; time-domain optical pulse; ultrashort pulse spectrum; ultrawideband pulse generation; Fiber lasers; Frequency conversion; Laser mode locking; Optical devices; Optical frequency conversion; Optical pulse generation; Optical pulse shaping; Power lasers; Pulse generation; Ultra wideband technology; All-fiber; chromatic dispersion; femtosecond pulse; frequency-to-time conversion; optical spectral shaping; ultrawideband (UWB);
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2006.888966
