Symmetry of the Matrix Model of Anisotropic Media with Orthogonal Eigenmodes and its Application for the Developing of Remote Sensing Polarimetric Measurement Systems in Visible

Abstract

This report results from a contract tasking National Taras Shevchenko University of Kiyv as follows: This project studied theoretically and experimentally the Mueller matrix model of crystalline anisotropic medium basing on generalized polarimetric equivalence theorem. Knowledge of these features is important for experimental retrieving the materials and media parameters and for classification of various types of media on the basis of their scattering models. Main objective of this study was determination of the conditions under which crystalline anisotropic medium has orthogonal eigenpolarizations (eigenmodes). It is known all four basic types of anisotropy, circular and linear birefringence and circular and linear dichroism, each taken separately, possess orthogonal eigenpolarizations. Generalized birefringence, i.e. the case of medium simultaneously exhibiting linear and circular birefringence is characterized by unitary matrix model and has orthogonal eigenpolarizations. At the same time, simultaneous presence of dichroism and birefringence in a medium may lead to nonorthogonal eigenpolarizations. So a systematic study of conditions under which such medium may possesses orthogonal eigenpolarizations was proposed. Initial expected results of this research includes: (i) ascertainment of generalized conditions for orthogonality of homogeneous anisotropic medium eigenmodes; (ii) determination of structure and symmetry of matrix model for such class of media; (iii) development of a polarimeter for the measurement of determined structures of incomplete Mueller matrices; (iv) assembling of the breadboard of 1D polarimeter; (v) check out of breadboard of 1D polarimeter.

Document Details

Document Type

Technical Report

Publication Date

Oct 01, 2011

Accession Number

ADA550579

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