Title :
Second- and third-order dispersion compensator using a high-resolution arrayed-waveguide grating
Author :
Tsuda, Hiroyuki ; Okamoto, Katsunari ; Ishii, Tetsuyoshi ; Naganuma, Kazunori ; Inoue, Yasuyuki ; Takenouchi, Hirokazu ; Kurokawa, Takashi
Author_Institution :
NTT Opto-Electron. Labs., Kanagawa, Japan
fDate :
5/1/1999 12:00:00 AM
Abstract :
We have proposed a dispersion compensation scheme that uses a high-resolution arrayed-waveguide grating (AWG). When the diffraction order of the AWG is 59 and the number of waveguides in an arrayed-waveguide is 340, the calculated maximum second- and third-order dispersion compensation range is 18.0 ps/nm and /spl plusmn/6.0 ps/nm/sup 2/, and 1100 ps/nm and /spl plusmn/937.5 ps/nm/sup 2/, for a 1 ps-pulse and a 12.5 ps-pulse, respectively. In experiments, second-order dispersion (-0.8 to +5.2 ps/nm) is effectively compensated for 1,1-ps pulses; and. Pulse compression by third-order dispersion compensation is successfully demonstrated.
Keywords :
compensation; diffraction gratings; optical arrays; optical communication equipment; optical fibre dispersion; optical pulse compression; optical resolving power; optical waveguides; 1 ps; 12.5 ps; arrayed-waveguide; diffraction order; dispersion compensation scheme; high-resolution arrayed-waveguide grating; optical pulse compression; ps-pulse; second-order dispersion; second-order dispersion compensator; third-order dispersion compensation; third-order dispersion compensator; Arrayed waveguide gratings; Bandwidth; Diffraction; Frequency; High speed optical techniques; Optical fiber communication; Optical interferometry; Optical pulse compression; Optical pulse shaping; Optical variables control;
Journal_Title :
Photonics Technology Letters, IEEE
