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10 January 2005 Finite element analysis of full-vectorial modal and leakage properties of microstructured and photonic crystal fibers
Sen-Ming Hsu, Hung-Jen Chen, Hung-chun Chang
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Proceedings Volume 5623, Passive Components and Fiber-based Devices; (2005) https://doi.org/10.1117/12.576116
Event: Asia-Pacific Optical Communications, 2004, Beijing, China
Abstract
Full-vectorial finite element method based eigenmode solver and imaginary-distance beam propagation method are developed for analyzing modal leakage characteristics of microstructured fibers and photonic band gap fibers. In both schemes the curvilinear hybrid edge/nodal elements based on linear tangential and quadratic normal vector basis functions are adopted to accomplish the computational window divisions and perfectly matched layer (PML) is incorporated as the boundary condition to absorb waves out of the computational window. The two schemes give consistent results for the numerical examples considered and the validity and usefulness of this work are demonstrated. Comparison with published results is shown.
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Sen-Ming Hsu, Hung-Jen Chen, and Hung-chun Chang "Finite element analysis of full-vectorial modal and leakage properties of microstructured and photonic crystal fibers", Proc. SPIE 5623, Passive Components and Fiber-based Devices, (10 January 2005); https://doi.org/10.1117/12.576116
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Cited by 3 scholarly publications.
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KEYWORDS
Optical fibers
Beam propagation method
Finite element methods
Waveguides
Wave propagation
Chemical elements
Photonic crystal fibers
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