M. Fuochi scite author profile

The modal cutoff of square-lattice photonic crystal fibers with a finite number of air-hole rings has been accurately investigated to our knowledge for the first time. By analyzing the leaky behavior of the second-order mode, we have obtained a phase diagram that describes the regions of single-mode and multimode operation as well as the endlessly single-mode regime. Furthermore, starting from these results, we have obtained the cutoff normalized frequency according to two different formulations of the V parameter previously adopted for fibers with a triangular lattice. A final comparison of the cutoff properties of fibers characterized by a square lattice and a triangular lattice has been carried out.

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Characterization of microstructured optical fibers for wideband dispersion compensation

Poli

Cucinotta

Fuochi

et al. 2003

J. Opt. Soc. Am. A

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Microstructured optical fibers (MOFs) with small hole-to-hole spacing and large airholes are designed to compensate the anomalous dispersion and the dispersion slope of single-mode fibers. The geometrical parameters that characterize triangular MOFs are chosen to optimize the fiber length and the compensation over a wide wavelength range. A proper design of the photonic crystal fiber geometry allows us to achieve dispersion values of approximately -1700 ps nm(-1) km(-1) at 1550 nm and to compensate the dispersion of standard fibers within +/- 0.5 ps nm(-1) km(-1) over a 100-nm range. The MOF dispersion properties have been studied by means of a numerical simulator for modal analysis based on the finite-element method.

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Study of raman amplification properties in triangular photonic crystal fibers

Fuochi

Poli

Selleri

et al. 2003

J. Lightwave Technol.

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Polarization mode dispersion reduction in spun large mode area silica holey fibres

et al. 2004

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Transient gain dynamics in saturated Raman amplifiers

Bononi

Papararo

Fuochi

2004

Optical Fiber Technology

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M. Fuochi

Single-mode regime of square-lattice photonic crystal fibers

Characterization of microstructured optical fibers for wideband dispersion compensation

Study of raman amplification properties in triangular photonic crystal fibers

Polarization mode dispersion reduction in spun large mode area silica holey fibres

Transient gain dynamics in saturated Raman amplifiers

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