Title :
PMD distribution measurement by an OTDR with polarimetry assuming Rayleigh backscattering by randomly oriented non-spherical particles
Author :
Ozeki, Takeshi ; Shinotsuka, Kenji ; Nakayama, Kiyoshi
Author_Institution :
Dept. of Electr. & Electron. Eng., Sophia Univ., Tokyo, Japan
Abstract :
In previous works of polarization mode dispersion (PMD) measurement by an optical time domain reflectometer with polarimetery (p-OTDR), scatterers are assumed to be cloud of small spherical particles in a fiber. We reported the p-OTDR waveforms were fitted well by modified Mueller matrixes assuming scattering by cloud of non-spherical particles. We realized a PMD measurement based on a novel p-OTDR JME (Jones matrix eigenvalue) method. The measured PMD was consistent with that of JME standard measurement using transmission-type polarimetry. In this paper, we confirm the reliability of this novel PMD measurement method by repeated comparisons with a standard measurement scheme. However, it is desirable to improve signal to noise ratio and algorithm using correlation, and to find direct evidence for non-spherical Rayleigh backscattering.
Keywords :
Rayleigh scattering; backscatter; eigenvalues and eigenfunctions; matrix algebra; optical fibre dispersion; optical fibre polarisation; optical fibre testing; polarimetry; random media; reflectometry; Jones matrix eigenvalue method; Mueller matrixes; PMD distribution measurement; Rayleigh backscattering; correlation method; nonspherical particles; optical time domain reflectometer; polarimetry; polarization mode dispersion; randomly oriented particles; signal to noise ratio; Backscatter; Clouds; Measurement standards; Optical scattering; Particle measurements; Particle scattering; Polarimetry; Polarization mode dispersion; Rayleigh scattering; Time measurement;
Conference_Titel :
Fibres and Optical Passive Components, 2005. Proceedings of 2005 IEEE/LEOS Workshop on
Print_ISBN :
0-7803-8949-2
DOI :
10.1109/WFOPC.2005.1462123
