Title :
Proposal for All-Solid Photonic Bandgap Fiber With Improved Dispersion Characteristics
Author :
Fang, Qiang ; Wang, Zhi ; Kai, Guiyun ; Jin, Long ; Yue, Yang ; Du, Jiangbing ; Shi, Qing ; Liu, Zhanyuan ; Liu, Bo ; Liu, Yange ; Yuan, Shuzhong ; Xiaoyi Dong
Author_Institution :
Nankai Univ., Tianjin
Abstract :
We propose a novel design of all-solid photonic bandgap fiber (AS-PBGF). It is designed by introducing a new defect, several bigger high-index rods, in the cladding of a conventional AS-PBGF. Using the plane-wave expansion method and the full-vector finite-element method, we study the effect of introducing such bigger high-index rods. The numerical results show that both large normal and anomalous dispersion are induced within bandgap rather than near the edge of bandgap as conventional PBGF does. More importantly, the confinement loss of the LP01 modes around the wavelengths, where large normal and anomalous dispersion are induced, could be decreased by increasing the rings of high-index rods for the fact that these wavelengths are within the bandgap.
Keywords :
optical fibre cladding; optical fibre dispersion; photonic band gap; AS-PBGF; LP01 modes; all-solid photonic bandgap fiber; full-vector finite-element method; optical fibre cladding; optical fibre dispersion; plane-wave expansion method; Communication system control; Educational technology; Finite element methods; Information science; Nonlinear optics; Optical fiber communication; Optical fiber devices; Photonic band gap; Photonic bandgap fibers; Proposals; All-solid photonic bandgap fiber (AS-PBGF); avoided crossing; finite-element method; large normal and anomalous dispersion; plane-wave expansion method;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2007.902233
