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Nonreciprocal propagation in optical fibers

Publication at Faculty of Mathematics and Physics |
2020

Abstract

Nonreciprocal propagation in the structures compatible with optical fiber waveguides presents practical interest. The present work treats the problem of nonreciprocal propagation in nonabsorbing cylindrically layered structures at axial magnetization characterized by magnetooptic electrical permittivity, ~e, and magnetic permeability, ~ m, tensors, using transverse circularly polarized representation.

The solutions to the vector Helmholtz Eqs. restricted to the terms linear in the off-diagonal elements of ~e and ~ m are expressed analytically. The results are applied to a magnetooptic circular cylindrical waveguide and illustrated on fiber waveguides with an yttrium iron garnet (YIG) core and a cladding formed by gallium substituted yttrium iron garnet (GaYIG) at the optical communication wavelength of 1.55 μm.

The propagation distance in the waveguide for a p 4 azimuth rotation of a transverse linearly polarized incident wave on the waveguide axis required in isolators is about 100 μm.