Acoustic effect and correlated errors in soliton information transmission

Author

Pilipetskii, A.N. ; Menyuk, C.R.

Author_Institution

Dept. of Comput. Sci. & Electr. Eng., Maryland Univ., Baltimore, MD, USA

fYear

1996

fDate

25 Feb.-1 March 1996

Firstpage

234

Lastpage

235

Abstract

Summary form only given. Solitons that propagate in an optical fiber experience timing jitter that limits both the bit rate and the information transmission distance. This timing jitter is caused by several effects: the Gordon-Haus effect, the polarization effect, and the acoustic effect. At bit rates in excess of 10 Gbit/s, the acoustic effect becomes the dominant cause of the timing jitter at distances greater than a few thousand kilometers. The acoustic effect is created by the large transverse gradient of the electric fields in the optical fiber due to the soliton pulses. These large field gradients electrostrictively excite acoustic waves that influence later solitons. The acoustic wave perturbs the effective refractive index of the fiber, leading to changes in the frequencies and temporal locations of the solitons.

Keywords

acoustoelectric effects; electrostriction; jitter; optical fibre communication; optical fibre polarisation; optical fibre theory; optical solitons; refractive index; 10 Gbit/s; Gordon-Haus effect; acoustic effect; bit rate; correlated errors; effective refractive index; electric fields; electrostrictively excite; information transmission distance; large transverse gradient; optical fiber; polarization effect; soliton information transmission; soliton pulses; temporal locations; timing jitter; Acoustic propagation; Acoustic pulses; Acoustic waves; Bit rate; Optical fiber polarization; Optical fibers; Optical propagation; Optical pulses; Solitons; Timing jitter;

fLanguage

English

Publisher

ieee

Conference_Titel

Optical Fiber Communications, 1996. OFC '96

Print_ISBN

1-55752-422-X

Type

conf

DOI

10.1109/OFC.1996.908255

Filename

908255