Full-Vector Analysis of Photonic Crystal Fibers Using the Finite Element Method(Special Issue on Optical Fibers and Devices)
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概要
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Using a full-vector finite element method (FEM) with curvilinear hybrid edge/nodal elements, a single-mode nature of index-guiding photonic crystal fibers, also called holey fibers (HFs), is accurately analyzed as a function of wave-length. The cladding effective index, which is very important design parameter for realizing a single-mode HF and is defined as the effective index of the infinite photonic crystal cladding if the core is absent, is also determined using the FEM. In traditional fiber theory, a normalized frequency, V, is often used to determine the number of guided modes in step-index fibers. In order to adapt the concept of V-parameter to HFs, the effective core radius, a_<eff>, is determined using the actual numerical aperture given by the FEM. Furthermore, the group velocity dispersion of single-mode HFs is calculated as a function of their geometrical parameters, and the modal birefringence of HFs is numerically investigated.
- 社団法人電子情報通信学会の論文
- 2002-04-01
著者
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KOSHIBA Masanori
Division of Electronics and Information Engineering, Hokkaido University
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Koshiba Masanori
Division Of Electronics And Information Engineering Hokkaido University
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Koshiba Masanori
Division Of Electronics And Information Engineering Faculty Of Engineering Hokkaido University
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