Numerical analysis of a highly birefringent microstructured optical fiber with an anisotropic core

Abstract: In this paper, modeling and optimization of a highly birefringent microstructured optical fiber with an anisotropic structure of a lamellar core is analyzed. The core consists of a linear stack of a high refractive index lead oxide glass F2 and a low refractive index borosilicate glass NC21A, which contributes to the anisotropy of two orthogonal polarizations of the fundamental mode propagating in the fiber. It is shown, that an appropriate choice of thickness and width of the layers constituting the core stru… Show more

“…In the latter case, the effective area of the mode is of a higher value. These results, obtained numerically using FEM, are in agreement with those reported earlier for a similar structure properties of which were simulated using the finite difference time domain method [22]. Such an unusual selective light localization in nanostructured elements of higher and lower refractive index elements is a consequence of effective refractive index of the given polarization mode.…”

Birefringence of nonlinearity in all-normal dispersion photonic crystal fibers

“…In the latter case, the effective area of the mode is of a higher value. These results, obtained numerically using FEM, are in agreement with those reported earlier for a similar structure properties of which were simulated using the finite difference time domain method [22]. Such an unusual selective light localization in nanostructured elements of higher and lower refractive index elements is a consequence of effective refractive index of the given polarization mode.…”

Birefringence of nonlinearity in all-normal dispersion photonic crystal fibers

Artificially anisotropic core fiber with ultra-flat high birefringence profile