论文信息 - Birefringence and polarization mode-dispersion in spun single-mode fibers.

Birefringence and polarization mode-dispersion in spun single-mode fibers.

A theoretical and experimental analysis of the polarization properties of twisted single-mode fibers is presented. It is shown that whereas a conventionally twisted fiber possesses considerable optical rotation, a fiber which has a permanent twist imparted by spinning the preform during fiber drawing exhibits almost no polarization anisotropy. It is thus possible to virtually eliminate the commonly observed fiber linear birefringence. As a consequence, fibers made in this way are ideally suited for use in the Faraday-effect current transducer. It is further shown that a permanent twist of a few turns/meter effectively eliminates polarization mode-dispersion. The technique therefore appears attractive for enhancing the bandwidth of very long unrepeatered telecommunication links.

[1] Y. Fujii,et al. Polarization coupling in twisted elliptical optical fiber. , 1980, Applied optics.

[2] R. Stolen,et al. Faraday rotation in highly birefringent optical fibers , 1979, IEEE Journal of Quantum Electronics.

[3] R. Ulrich,et al. Polarization optics of twisted single-mode fibers. , 1979, Applied optics.

[4] S. C. Rashleigh,et al. Magneto‐optic current sensing with birefringent fibers , 1979 .

[5] C. Papas,et al. Modal dispersion in lightguides in the presence of strong coupling , 1978 .

[6] W. Pleibel,et al. Linear polarization in birefringent single‐mode fibers , 1978 .

[7] S. Rashleigh,et al. Polarization mode dispersion in single-mode fibers. , 1978, Optics letters.

[8] A. Snyder,et al. Light propagation in twisted anisotropic media: application to photoreceptors. , 1978, Journal of the Optical Society of America.

[9] R. Shorthill,et al. Ring interferometer 950 m long. , 1977, Applied optics.

[10] D. Keck,et al. Birefringence in dielectric optical waveguides , 1972 .

[11] A. Smith,et al. Polarization and magnetooptic properties of single-mode optical fiber. , 1978, Applied optics.