Investigation on Dispersion Property of a Novel Photonic Crystal Fiber with Square Array Air Holes

Yan Jun Liu; Tong Dai

doi:10.4028/www.scientific.net/AMR.571.278

Paper Titles

A 5-Port Photonic Lantern for Light Beam Combining
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MOCVD Growth and Optical Properties of Self-Assembled InAs/GaAs Quantum Dots
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The Impact of Cap Layers on the Structural and Optical Properties of Self-Assembled InAs/GaAs Quantum Dots
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Research of a Small-Scale Building Integrated Photovoltaic Micro-Grid System
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Investigation on Dispersion Property of a Novel Photonic Crystal Fiber with Square Array Air Holes
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Fisher Information and Quantum Squeezing Properties of Gaussian Pure States
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Dynamically Manipulating Beam with Metallic Nano-Optic Lens Containing Liquid Crystal
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Optical Properties of LaB₆: A Computer Aided Simulation
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Study on All-Optical Slow-Light Delays of Stimulated Brillouin Scattering in Photonic Crystal Fibers
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Investigation on Dispersion Property of a Novel Photonic Crystal Fiber with Square Array Air Holes

Abstract:

The dispersion property of a novel photonic crystal fiber with square array air holes was simulated with the vectorial beam propagation method. The impacts of the pitch and hole diameter on the effective area of fundamental mode and the dispersion parameter were evaluated. The results indicate that the effective refractive index decreases and the dispersion parameter increases with air hole diameter increasing and the pitch decreasing, the structure parameters of inner three rings air hole influences the dispersion characteristics greatly. Thus the dispersion property of the photonic crystal fiber can be tailed by the structural parameters.