Design and analysis of novel highly nonlinear photonic crystal fibers with ultra-flattened chromatic dispersion
Optics communications, 2009•Elsevier
The present article describes novel highly nonlinear photonic crystal fibers (HN-PCFs) with
flattened chromatic dispersion and low confinement losses. The proposed design has been
simulated based on the finite-difference method with anisotropic perfectly matched layers
absorbing boundary condition. It is proved that the design novel HN-PCFs is obtained a
nonlinear coefficient greater than 45W− 1km− 1 and low dispersion slope− 0.009 ps/(nm2.
km) at 1.55 μm wavelength. In addition, results from numerical simulation show that the ultra …
flattened chromatic dispersion and low confinement losses. The proposed design has been
simulated based on the finite-difference method with anisotropic perfectly matched layers
absorbing boundary condition. It is proved that the design novel HN-PCFs is obtained a
nonlinear coefficient greater than 45W− 1km− 1 and low dispersion slope− 0.009 ps/(nm2.
km) at 1.55 μm wavelength. In addition, results from numerical simulation show that the ultra …
The present article describes novel highly nonlinear photonic crystal fibers (HN-PCFs) with flattened chromatic dispersion and low confinement losses. The proposed design has been simulated based on the finite-difference method with anisotropic perfectly matched layers absorbing boundary condition. It is proved that the design novel HN-PCFs is obtained a nonlinear coefficient greater than 45W−1km−1 and low dispersion slope −0.009ps/(nm2.km) at 1.55μm wavelength. In addition, results from numerical simulation show that the ultra-flattened dispersion of 0±0.65ps/(nm.km) can be obtained in a 1.36–1.62μm wavelength range with confinement losses lower than 10−7dB/m in the same wavelength range. Another advantage of the proposed HN-PCFs is that it possessed modest number of design parameters.
Elsevier
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