Title :
Width and wavelength-tunable optical pulse train generation based on four-wave mixing in highly nonlinear photonic crystal fiber
Author :
Zhang, Ailing ; Liu, Heliang ; Demokan, M.S. ; Tam, H.Y.
Author_Institution :
Dept. of Electr. Eng., Hong Kong Polytech. Univ., Kowloon, China
Abstract :
We demonstrate both width and wavelength-tunable optical pulse train generation based on four-wave mixing in highly nonlinear photonic crystal fiber. By tuning the delay time between two pulse trains, the pulsewidth of the generated pulse train is continuously tuned. By tuning the wavelength of one of the pulse trains, the wavelength of the generated pulse train is also continuously tuned. In our experiment, the pulsewidth of a 5-GHz repetition rate pulse train is tuned from 88 to 19 ps and the pulsewidth of a 10-GHz pulse train is tuned from 39 to 19 ps. The 3-dB wavelength tuning range is about 70 nm.
Keywords :
multiwave mixing; optical communication equipment; optical fibre communication; optical fibres; optical pulse generation; optical tuning; photonic crystals; 19 ps; 39 ps; 5 GHz; 88 ps; delay time; four-wave mixing; highly nonlinear photonic crystal fiber; optical pulse train generation; pulsewidth tuning; wavelength tuning; Fiber nonlinear optics; Four-wave mixing; Laser tuning; Nonlinear optics; Optical mixing; Optical pulse generation; Optical pulses; Photonic crystal fibers; Pulse amplifiers; Space vector pulse width modulation; Four-wave mixing (FWM); nonlinear optics; optical fiber communication;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2005.859479
