Mathematical modeling of random coupling between polarization modes in single-mode optical fibers: VI. Evolution in the degree of polarization of nonmonochromatic radiation traveling in a twisted optical waveguide

@article{Malykin2000MathematicalMO,
  title={Mathematical modeling of random coupling between polarization modes in single-mode optical fibers: VI. Evolution in the degree of polarization of nonmonochromatic radiation traveling in a twisted optical waveguide},
  author={G. Malykin and V. Pozdnyakova},
  journal={Optics and Spectroscopy},
  year={2000},
  volume={89},
  pages={273-281}
}
  • G. Malykin, V. Pozdnyakova
  • Published 2000
  • Physics
  • Optics and Spectroscopy
  • An analysis is made of the evolution of polarization of nonmonochromatic radiation travelling through single-mode optical fibers in the presence of random coupling between orthogonally polarized modes, which is caused by the random twist of axes of natural linear birefringence of an SMF, and in the presence of a regular axis twist. It is shown that the depolarization length of nonmonochromatic radiation in an SMF increases with increasing regular SMF twist, regardless of the presence of a… CONTINUE READING
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    References

    SHOWING 1-10 OF 18 REFERENCES
    Origins and control of polarization effects in single-mode fibers (A)
    • 519
    Polarization optics of twisted single-mode fibers.
    • 673
    Polarization mode dispersion in single-mode fibers.
    • 167
    Birefringence and polarization mode-dispersion in spun single-mode fibers.
    • 235
    • PDF
    Birefringence in dielectric optical waveguides
    • 116
    Polarization in optical fibers
    • 440