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Proceedings Paper

Properties of photonic crystal fiber with double lattice of microholes and microrods
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Paper Abstract

The properties of photonic crystal fibers are determined by the structure of photonic cladding: filling factor, type of lattice and shape of air holes. The dispersion and modal characteristics of the fiber can be modified by adding an additional lattice of glass micro-rods with a refractive index higher than the glass substrate. We have fabricated a solid-core photonic crystal fiber with a double photonic cladding composed of air holes and glass micro-rods, where a high index multicomponent glass is used for the micro-rods. As a reference a fiber with similar parameters and a single lattice of air holes is fabricated. The fiber cladding is composed of 17 x 17 air holes and micro-rods ordered in square lattice. In this paper, we study the optical properties of photonic crystal fiber with single and double lattices. FDTD method and a full-vector mode solver based on biorthonormal basis method are used for fiber analysis. Possible modifications of the structure and potential applications will be discussed.

Paper Details

Date Published: 23 September 2005
PDF: 7 pages
Proc. SPIE 5951, Optical Fibers: Technology, 595105 (23 September 2005); doi: 10.1117/12.623126
Show Author Affiliations
Dariusz Pysz, Institute of Electronic Materials Technology (Poland)
Ryszard Buczynski, Warsaw Univ. (Poland)
Przemyslaw Szarniak, Institute of Electronic Materials Technology (Poland)
Wladyslaw Saj, Warsaw Univ. (Poland)
Ireneusz Kujawa, Institute of Electronic Materials Technology (Poland)
Ryszard Stepien, Institute of Electronic Materials Technology (Poland)


Published in SPIE Proceedings Vol. 5951:
Optical Fibers: Technology
Jan Rayss; Brian Culshaw; Anna Grazia Mignani, Editor(s)

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