Polarization of propagated light with optical solitons along the fiber in de-sitter space S21

In this article, we present transformation equations for electromagnetic fields of polarized light ray traveling by magnetic optical fiber on De Sitter space S21. Some applications have been supervised by applying the new spherical frame of some Lorentzian spherical systems that are illustrated simultaneously with coiled magnetic optical fiber in De Sitter space S21. Also, we introduce perturbed new solitons for some nonlinear Schroddinger's transformation equations that manages propagation of solitons by electromagnetic fields (M, E). Finally, we present some analytical reproductions to complement the analytical conclusions.

Automated summary

This article presents transformation equations for the electromagnetic fields of polarized light ray traveling through magnetic optical fiber on De Sitter space S21. Applications include using a new spherical frame for Lorentzian spherical systems and coiled magnetic optical fiber in the same space. The introduction of perturbed new solitons for non-linear Schroddinger's transformation equations that control soliton propagation by electromagnetic fields is also included. Finally, some analytical reproductions are presented to complement the analytical conclusions.