Title :
Nearly exact optical beat-to-soliton train conversion based on comb-like profiled fiber emulating a polynomial dispersion decreasing profile
Author :
Ozeki, Yasuyuki ; Takasaka, Shigehiro ; Inoue, Takashi ; Igarashi, Koji ; Hiroishi, Jiro ; Sugizaki, Ryuichi ; Sakano, Misao ; Namiki, Shu
Author_Institution :
PRESTO, Japan Sci. & Technol. Agency, Saitama, Japan
Abstract :
We show that an optical beat signal is almost exactly converted to a soliton train through the propagation along a fiber with a polynomial dispersion decreasing profile, which is numerically optimized through iterative calculation. In the experiment, we demonstrate the 160-GHz beat-to-soliton conversion with a 40-pair comb-like profiled fiber, which is designed to emulate the optimized dispersion profile. The optical beat is compressed to a 324-fs soliton train with a high peak-to-pedestal ratio of more than 21 dB, and its spectral envelope is almost completely converted into a sech2 shape.
Keywords :
iterative methods; optical design techniques; optical fibre dispersion; optical pulse compression; optical solitons; 160 GHz; 324 fs; comb-like profiled fiber; iterative calculation; optical beat compression; optical beat-to-soliton train conversion; polynomial dispersion decreasing profile; Laboratories; Optical fiber dispersion; Optical fibers; Optical pulse compression; Optical pulse generation; Optical pulses; Optical solitons; Photonics; Polynomials; Pulse compression methods; Optical fiber dispersion; optical pulse compression; optical pulse generation; optical solitons;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2005.851915
