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Structural Study of Hole Assisted Fibers Considering Optical Parallel Transmission
-
Norio Kashima
Published/Copyright:
December 1, 2011
Abstract
Hole-assisted fibers (HAFs) in a fiber ribbon have been studied for high-speed parallel transmission systems. This paper describes the influence of hole-structure variations on the group delay variation caused by stress, the mode field diameter (MFD), and the higher order mode characteristics. Calculations are made using the previously proposed calculation method with finite element method (FEM). We discuss the effectiveness and limitation of the previously proposed parameter 
based on the calculations.
Keywords.: Hole-assisted fibers; single mode fiber; fiber ribbon; group delay; mode field diameter; parallel transmission; finite element method
Received: 2011-06-17
Accepted: 2011-09-08
Published Online: 2011-December
Published in Print: 2011-December
Copyright 2011 De Gruyter
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Keywords for this article
Hole-assisted fibers;
single mode fiber;
fiber ribbon;
group delay;
mode field diameter;
parallel transmission;
finite element method
Articles in the same Issue
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- Comparison of Silicon and Chalcogenide-based Chip-scale All-optical 2R Regenerators
- A High Q Design for N-channel Wavelength Division Demultiplexer
- All-optical KarhunenLoeve Transform Using Multimode Interference Structures on Silicon Nanowires
- Structural Study of Hole Assisted Fibers Considering Optical Parallel Transmission
- An Interesting Optical Behavior of Bent/Multi-branch Waveguides Based on Hexagonal-lattice Photonic Crystals
- Performance Analysis of Particle Swarm Optimization Based Routing Algorithm in Optical Burst Switching Networks
- A Managed Self-Organization of Virtual Network Topology Controls in WDM-based Optical Networks
- Performance Evaluation of Free Space Optics Communication System in the Presence of Forward Error Correction Techniques
- A Novel Reliable WDM-PON System
- Optical Generation and Distribution of OFDM Ultrawideband Signals Over Fiber
- Influence of Pre- and Post-compensation of Chromatic Dispersion on Equalization Enhanced Phase Noise in Coherent Multilevel Systems
- A New Technique for Reduction the Phase Induced Intensity Noise in SAC-OCDMA Systems
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