The numerical study on large bandwidth photonic crystal waveguide with slow light phenomena

In this paper, two novel types of semi-slow light photonic crystal waveguide with large transmission bandwidth obtained by shifting the boundaries of a W1 waveguide in the direction of light propagation are presented. One includes air rings localized at only one side of the line defect and the other...

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Veröffentlicht in:	Optics and spectroscopy 2013-02, Vol.114 (2), p.274-278
Hauptverfasser:	Yan, Ming-Bao, Fu, Zhen-Tang, Wang, Wei-Yu
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Sprache:	eng
Schlagworte:	Lasers Optical Devices Optics Photonics Physical Optics Physics Physics and Astronomy
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creator	Yan, Ming-Bao Fu, Zhen-Tang Wang, Wei-Yu
description	In this paper, two novel types of semi-slow light photonic crystal waveguide with large transmission bandwidth obtained by shifting the boundaries of a W1 waveguide in the direction of light propagation are presented. One includes air rings localized at only one side of the line defect and the other replaces the holes at each side of the waveguide by the uniform air rings which are constructed by the homocentric square dielectric rod inserted into the air holes. The structure produces unusual “n-type” transmission spectrum depending on the different parameters such as inner radius of air ring, dielectric constant of square dielectric rod, etc. It is shown that the transmission spectra of the two structures are completely different from each other. A versatile control of light propagation with large normalized bandwidth and slow light phenomena can be obtained using a unique geometrical parameter. Numerical simulation by the finite-difference time-domain (FDTD) method demonstrates the propagation of the broadband pulse.
doi_str_mv	10.1134/S0030400X13020306
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One includes air rings localized at only one side of the line defect and the other replaces the holes at each side of the waveguide by the uniform air rings which are constructed by the homocentric square dielectric rod inserted into the air holes. The structure produces unusual “n-type” transmission spectrum depending on the different parameters such as inner radius of air ring, dielectric constant of square dielectric rod, etc. It is shown that the transmission spectra of the two structures are completely different from each other. A versatile control of light propagation with large normalized bandwidth and slow light phenomena can be obtained using a unique geometrical parameter. 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subjects	Lasers Optical Devices Optics Photonics Physical Optics Physics Physics and Astronomy
title	The numerical study on large bandwidth photonic crystal waveguide with slow light phenomena
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