Novel broadband dispersion compensating photonic crystal fibers: Applications in high-speed transmission systems
Optics & Laser Technology, 2009•Elsevier
This paper reveals a novel dispersion compensating photonic crystal fiber (DC-PCF) for
wide-band high-speed transmission systems. The finite-difference method with an
anisotropic perfectly matched absorbing layers boundary condition is used to investigate the
guiding properties. The designed novel DC-PCF shows that it is possible to obtain a larger
negative dispersion coefficient, better dispersion slope compensation, and confinement
losses less than 10− 4dB/m in the entire S+ C+ L telecommunication band by using a …
wide-band high-speed transmission systems. The finite-difference method with an
anisotropic perfectly matched absorbing layers boundary condition is used to investigate the
guiding properties. The designed novel DC-PCF shows that it is possible to obtain a larger
negative dispersion coefficient, better dispersion slope compensation, and confinement
losses less than 10− 4dB/m in the entire S+ C+ L telecommunication band by using a …
This paper reveals a novel dispersion compensating photonic crystal fiber (DC-PCF) for wide-band high-speed transmission systems. The finite-difference method with an anisotropic perfectly matched absorbing layers boundary condition is used to investigate the guiding properties. The designed novel DC-PCF shows that it is possible to obtain a larger negative dispersion coefficient, better dispersion slope compensation, and confinement losses less than 10−4dB/m in the entire S+C+L telecommunication band by using a modest number of design parameters. The proposed module can be used in 40Gb/s dense wavelength division multiplexing (DWDM) systems in optical fiber communication networks.
Elsevier
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