Wavelet image processing applied to laser beam propagation in polarized optical waveguides

Details Wavelet image processing applied to laser beam propagation in polarized optical waveguides Wavelet image processing applied to laser beam propagation in polarized optical waveguides

Sep 2002

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2002spie.4819.....j&link_type=abstract

Wavelet image processing applied to laser beam propagation in polarized optical waveguides. Edited by Jones, Katharine J. Pr

Computer Science

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Scientific paper

Polarization in optical waveguides is always an aspect of optical loss and consequently impacts device performance. Wavelet image processing allows a means to detect optical signals buried under noise. Orthogonality is an essential element in wavelet bases. There are three primary types of multiresolution bases: orthogonal wavelet bases, semiorthogonal wavelet bases, and biorthogonal wavelet bases. Wavelet image processing will be applied to laser beam propagation in lithium niobate and nonlinear polymer waveguides to achieve detection of signals below noise and a better understanding of polarization as an aspect of device performance.

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