Design of Broadband Dispersion Compensating Photonic Crystal Fiber

Authors

  • Md. Selim Habib

    Department of Electrical & Electronic Engineering, Rajshahi University of Engineering & Technology, Rajshahi-6204, Bangladesh.

  • Md. Samiul Habib

    Department of Electrical & Electronic Engineering, Rajshahi University of Engineering & Technology, Rajshahi-6204, Bangladesh.

  • S.M.A Razzak

    This paper presents a triangular-lattice photonic crystal fiber for broadband dispersion compensation. The finite element method with perfectly matched absorbing layers boundary condition is used to investigate the guiding properties. The designed dispersion compensating fiber shows that it is possible to obtain a larger negative dispersion coefficient of ?360 ps/(nm.km) at 1.55 ?m, better dispersion slope compensation, better compensation ratio in the entire telecommunication (1460-1640 nm) band by using a modest number of design parameters and very simple cladding design.

  • M.A.G Khan

    This paper presents a triangular-lattice photonic crystal fiber for broadband dispersion compensation. The finite element method with perfectly matched absorbing layers boundary condition is used to investigate the guiding properties. The designed dispersion compensating fiber shows that it is possible to obtain a larger negative dispersion coefficient of ?360 ps/(nm.km) at 1.55 ?m, better dispersion slope compensation, better compensation ratio in the entire telecommunication (1460-1640 nm) band by using a modest number of design parameters and very simple cladding design.

How to Cite

Habib, M. S., Habib, M. S., Razzak, S., & Khan, M. (2012). Design of Broadband Dispersion Compensating Photonic Crystal Fiber. International Journal of Engineering and Technology, 1(4), 384-394. https://doi.org/10.14419/ijet.v1i4.359

Received date: August 9, 2012

Accepted date: August 29, 2012

Published date: September 4, 2012

DOI:

https://doi.org/10.14419/ijet.v1i4.359

Abstract

This paper presents a triangular-lattice photonic crystal fiber for broadband dispersion compensation. The finite element method with perfectly matched absorbing layers boundary condition is used to investigate the guiding properties. The designed dispersion compensating fiber shows that it is possible to obtain a larger negative dispersion coefficient of ?360 ps/(nm.km) at 1.55 ?m, better dispersion slope compensation, better compensation ratio in the entire  telecommunication (1460-1640 nm) band by using a modest number of design parameters and very simple cladding design.

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How to Cite

Habib, M. S., Habib, M. S., Razzak, S., & Khan, M. (2012). Design of Broadband Dispersion Compensating Photonic Crystal Fiber. International Journal of Engineering and Technology, 1(4), 384-394. https://doi.org/10.14419/ijet.v1i4.359

Received date: August 9, 2012

Accepted date: August 29, 2012

Published date: September 4, 2012