Title :
Clock recovery and demultiplexing of high-speed OTDM signal through combined use of bismuth oxide nonlinear fiber and erbium-doped bismuth oxide fiber
Author :
Lee, Ju Han ; Ohara, Seiki ; Nagashima, Tatsuo ; Hasegawa, Tomoharu ; Sugimoto, Naoki ; Igarashi, Koji ; Katoh, Kazuhiro ; Kikuchi, Kazuro
Author_Institution :
Res. Center for Adv. Sci. & Technol., Univ. of Tokyo, Japan
Abstract :
We explore the ultimate potential offered by state-of-the-art Bismuth oxide-based optical fiber technology in a high-speed optical phase-locked loop-based clock recovery subsystem for an optical time-division multiplexed (OTDM) signal, in which the use of optical fiber-based devices has been considered to be inappropriate due to its tight requirement of short optical loop length. Here, we experimentally demonstrate the implementation of a compact all-fiber-based OTDM receiver incorporating both clock recovery and demultiplexing functions by use of short lengths of Bismuth oxide-based nonlinear fiber and erbium-doped Bismuth oxide fiber. Successful clock recovery and subsequent error-free demultiplexing are readily achieved at a data rate of 80 Gb/s. The clock recovery subsystem is also shown to be operable at 160 Gb/s.
Keywords :
bismuth compounds; demultiplexing; erbium; nonlinear optics; optical fibre communication; optical fibres; optical phase locked loops; optical receivers; synchronisation; time division multiplexing; 160 Gbit/s; 80 Gbit/s; Bi2O3; Bi2O3:Er; OTDM receiver; bismuth oxide nonlinear fiber; clock recovery; demultiplexing; erbium-doped bismuth oxide fiber; optical phase-locked loop; optical time-division multiplexing; Bismuth; Clocks; Demultiplexing; Fiber nonlinear optics; High speed optical techniques; Nonlinear optical devices; Optical devices; Optical fiber devices; Optical fibers; Optical receivers; Erbium-doped fiber (EDF); nonlinear optics; optical communication; optical fiber devices; optical signal processing;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2005.859481
