Title :
An approach to ultrawideband pulse generation and distribution over optical fiber
Author :
Zeng, Fei ; Yao, Jianping
Author_Institution :
Sch. of Inf. Technol. & Eng., Univ. of Ottawa, Ont., Canada
fDate :
4/1/2006 12:00:00 AM
Abstract :
We propose a novel approach to generating and distributing ultrawideband (UWB) pulse signals over optical fiber. The proposed system consists of a single-wavelength laser source, an electrooptic phase modulator (EOPM), a length of single-mode fiber (SMF), and a photodetector (PD). The combination of the EOPM, the SMF link, and the PD forms an all-optical microwave bandpass filter, which is used to generate a UWB signal with a spectrum meeting the regulation of the Federal Communication Commission. Gaussian doublet pulses are obtained at the receiver front-end, which can provide several gigahertz bandwidths for applications in high-bit-rate UWB wireless communications. Experimental results measured in both temporal and frequency domains are presented.
Keywords :
band-pass filters; electro-optical modulation; microwave filters; microwave photonics; optical fibre communication; optical fibre dispersion; optical filters; optical pulse generation; optical receivers; phase modulation; photodetectors; ultra wideband communication; Gaussian doublet pulses; UWB wireless communications; all-optical filter; bandpass filter; chromatic dispersion; electrooptic phase modulator; frequency domain measurement; high-bit-rate communications; microwave filter; optical fiber; photodetector; receiver front-end; single-mode fiber; single-mode fiber link; single-wavelength laser source; temporal domain measurement; ultrawideband pulse distribution; ultrawideband pulse generation; Fiber lasers; Lasers and electrooptics; Masers; Optical fiber communication; Optical fibers; Optical pulse generation; Phase modulation; Pulse generation; Signal generators; Ultra wideband technology; Bandpass filter; chromatic dispersion; direct sequence impulse radio; electrooptic phase modulation; radio-over-fiber; ultrawideband (UWB);
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2006.871844
