Abstract
A layered spiral microstructured optical fiber (LS-MOF) is presented, which offers the possibility of a good control of both the dispersion and the nonlinear properties. The proposed design is analyzed using a finite element method considering silica and air as the materials. Zero dispersion, low confinement loss, and a record value of γ=70.0W−1/km for the LS-MOF nonlinear parameter are simultaneously obtained at 1.55μm, whereas a higher value γ=169.4W−1/km can be achieved at 1.06μm. Our results demonstrate the great potential of the LS-MOF for several nonlinear applications, namely for an efficient generation of the supercontinuum.
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