Finite-element analysis of birefringence and dispersion properties in actual and idealized holey-fiber structures.

@article{Koshiba2003FiniteelementAO,
  title={Finite-element analysis of birefringence and dispersion properties in actual and idealized holey-fiber structures.},
  author={Masanori Koshiba and Kunimasa Saitoh},
  journal={Applied optics},
  year={2003},
  volume={42 31},
  pages={6267-75}
}
Using a full-vector finite-element method, we calculate birefringence and dispersion in index-guiding photonic crystal fibers, also called holey fibers. Through real-model simulations the polarization-dependent dispersion in actual fiber structures is numerically demonstrated, for the first time to our knowledge. Furthermore the transverse-electric-field vector distributions in the fabricated holey fibers are also clarified for the two linearly polarized fundamental modes. 
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