Abstract We report synoptically an investigation of design, fabrication and characterization of a new all-solid photonic bandgap fiber.
By introducing an index depressed layer around a high index core in every unit cell of photonic crystal cladding, a novelall-solid bandgap fiber is predicted to obtain low confinement and bend losses within low-order bandgaps. After optimizingthe structure parameters, we fabricate a batch of rods used for cladding cells, select a pure-silica rod for core cell andan inner-hexagonal jacket tube. We demonstrate an all-solid bandgap fiber with the transmission loss as low as 2 dB/km at1,310 nm and a bandwidth of over 700 nm within the first bandgap. The guiding properties are also measured, respectively,such as transmission spectrum, attenuation spectrum, bend loss, mode field intensity profile, and chromatic dispersion.
%0 Journal Article
%1 Tong:07
%A Tong, Weijun
%A Wei, Huifeng
%A Li, Jing
%A Wang, Honghai
%A Han, Qingrong
%A Luo, Jie
%A Ren, Guobin
%A Yu, Xia
%A Shum, Ping
%D 2007
%J Optical and Quantum Electronics
%K all-solid bandgap fiber fibre low-loss low-order
%N 12
%P 1071--1080
%T Investigation of all-solid photonic bandgap fiber with low losses in low-order bandgaps
%U http://dx.doi.org/10.1007/s11082-007-9145-x
%V 39
%X Abstract We report synoptically an investigation of design, fabrication and characterization of a new all-solid photonic bandgap fiber.
By introducing an index depressed layer around a high index core in every unit cell of photonic crystal cladding, a novelall-solid bandgap fiber is predicted to obtain low confinement and bend losses within low-order bandgaps. After optimizingthe structure parameters, we fabricate a batch of rods used for cladding cells, select a pure-silica rod for core cell andan inner-hexagonal jacket tube. We demonstrate an all-solid bandgap fiber with the transmission loss as low as 2 dB/km at1,310 nm and a bandwidth of over 700 nm within the first bandgap. The guiding properties are also measured, respectively,such as transmission spectrum, attenuation spectrum, bend loss, mode field intensity profile, and chromatic dispersion.
@article{Tong:07,
abstract = {Abstract We report synoptically an investigation of design, fabrication and characterization of a new all-solid photonic bandgap fiber.
By introducing an index depressed layer around a high index core in every unit cell of photonic crystal cladding, a novelall-solid bandgap fiber is predicted to obtain low confinement and bend losses within low-order bandgaps. After optimizingthe structure parameters, we fabricate a batch of rods used for cladding cells, select a pure-silica rod for core cell andan inner-hexagonal jacket tube. We demonstrate an all-solid bandgap fiber with the transmission loss as low as 2 dB/km at1,310 nm and a bandwidth of over 700 nm within the first bandgap. The guiding properties are also measured, respectively,such as transmission spectrum, attenuation spectrum, bend loss, mode field intensity profile, and chromatic dispersion.},
added-at = {2009-05-17T14:47:23.000+0200},
author = {Tong, Weijun and Wei, Huifeng and Li, Jing and Wang, Honghai and Han, Qingrong and Luo, Jie and Ren, Guobin and Yu, Xia and Shum, Ping},
biburl = {https://www.bibsonomy.org/bibtex/226108abfa046c86feea1df097ef2af94/krisrowland},
description = {SpringerLink - Journal Article},
interhash = {90ee7d6155b65fafda6804f7df6ecd1a},
intrahash = {26108abfa046c86feea1df097ef2af94},
journal = {Optical and Quantum Electronics},
keywords = {all-solid bandgap fiber fibre low-loss low-order},
month = {Oct.},
number = 12,
pages = {1071--1080},
timestamp = {2009-05-17T14:47:23.000+0200},
title = {Investigation of all-solid photonic bandgap fiber with low losses in low-order bandgaps},
url = {http://dx.doi.org/10.1007/s11082-007-9145-x},
volume = 39,
year = 2007
}