Correct investigation of the statistic irregularities of integrated optical waveguides using waveguide light scattering

The phenomenon of waveguide mode scattering in an irregular planar optical waveguide is investigated. The solution of the direct problem is refined with the help of the theory of perturbations. The inverse waveguide scattering problem consists in restoring the autocovariance function and determining the parameter irregularities by measuring data from the scattering diagram in the far zone. Computer simulation makes it possible to prove that our method enables us to acquire an approximate correct solution of the inverse problem with a root-mean-square error in restoring the given autocovariance functions of no more than 35% in the presence of high real noise (for SNR ≥ 1). The statistic parameters of irregularities in this case are determined with an error of less than 15-30%.

Authors
Journal
Number of issue
7
Language
English
Pages
987-995
Status
Published
Volume
14
Year
2004
Organizations
  • 1 Peoples' Friendship Univ. of Russia, Ordzhonikidze ul. 3, Moscow, 117923, Russian Federation
Keywords
Autocovariance functions (ACF); Planar optical waveguides (PWG); Spectral density function (SDF); Waveguide light scattering; Approximation theory; Computer simulation; Fourier transforms; Integrated optics; Light scattering; Parameter estimation; Perturbation techniques; Photodetectors; Radiation; Scanning electron microscopy; Signal to noise ratio; Wave equations; Optical waveguides
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