Highly birefringent broadband-dispersion-compensating photonic crystal fibre over the E+S+C+L+U wavelength bands

•The key features of this paper include a hybrid design of a square core octagonal lattice photonic crystal fibre using only circular air-holes that explores a highly birefringent and broadband dispersion compensation covering the E, S, C, L and U communication bands (1360–1675nm) and a statistical...

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Bibliographic Details
Published in:Optical fiber technology 2014-10, Vol.20 (5), p.527-532
Main Authors: Habib, Md. Selim, Rana, Md. Shohel, Moniruzzaman, Md, Ali, Md. Sharafat, Ahmed, N.
Format: Article
Language:English
Subjects:
Birefringence
Dispersion compensating fibre
Effective dispersion
Finite element method
Photonic crystal fibre
Residual dispersion
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Summary:•The key features of this paper include a hybrid design of a square core octagonal lattice photonic crystal fibre using only circular air-holes that explores a highly birefringent and broadband dispersion compensation covering the E, S, C, L and U communication bands (1360–1675nm) and a statistical comparison with some recent proposed designs. The key features of this manuscript include a hybrid design of a square-core octagonal-lattice photonic crystal fibre with only circular air holes that exhibits high birefringence and broadband dispersion compensation covering the E, S, C, L, and U communication bands (1360–1675nm) and a statistical comparison of the proposed design with some other recently proposed designs. A numerical simulation showed a negative dispersion coefficient in the range of approximately −134 to −385ps/(nmkm) over E and U bands with a relative dispersion slope (RDS), which is equal to that of a single-mode fibre (SMF, approximately 0.0036nm−1) and a birefringence in the order of 2.13×10−2 at the operating wavelength of 1.55μm. Because sensing applications require a highly birefringent fibre, statistical correlations between the birefringence and different parameters were investigated. Moreover, the effective area, residual dispersion, effective dispersion, and confinement loss associated with the proposed design are also reported.
ISSN:1068-5200
1095-9912
DOI:10.1016/j.yofte.2014.06.004